# Generated from C.bnf by ANTLR 4.5.1
# encoding: utf-8
from antlr4 import *
from io import StringIO

def serializedATN():
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class CParser ( Parser ):

    grammarFileName = "C.bnf"

    atn = ATNDeserializer().deserialize(serializedATN())

    decisionsToDFA = [ DFA(ds, i) for i, ds in enumerate(atn.decisionToState) ]

    sharedContextCache = PredictionContextCache()

    literalNames = [ "<INVALID>", "'__extension__'", "'__builtin_va_arg'",
                     "'__builtin_offsetof'", "'__m128'", "'__m128d'", "'__m128i'",
                     "'__typeof__'", "'__inline__'", "'__stdcall'", "'__declspec'",
                     "'__asm'", "'__attribute__'", "'__asm__'", "'__volatile__'",
                     "'auto'", "'break'", "'case'", "'char'", "'const'",
                     "'continue'", "'default'", "'do'", "'double'", "'else'",
                     "'enum'", "'extern'", "'float'", "'for'", "'goto'",
                     "'if'", "'inline'", "'int'", "'long'", "'register'",
                     "'restrict'", "'return'", "'short'", "'signed'", "'sizeof'",
                     "'static'", "'struct'", "'switch'", "'typedef'", "'union'",
                     "'unsigned'", "'void'", "'volatile'", "'while'", "'_Alignas'",
                     "'_Alignof'", "'_Atomic'", "'_Bool'", "'_Complex'",
                     "'_Generic'", "'_Imaginary'", "'_Noreturn'", "'_Static_assert'",
                     "'_Thread_local'", "'('", "')'", "'['", "']'", "'{'",
                     "'}'", "'<'", "'<='", "'>'", "'>='", "'<<'", "'>>'",
                     "'+'", "'++'", "'-'", "'--'", "'*'", "'/'", "'%'",
                     "'&'", "'|'", "'&&'", "'||'", "'^'", "'!'", "'~'",
                     "'?'", "':'", "';'", "','", "'='", "'*='", "'/='",
                     "'%='", "'+='", "'-='", "'<<='", "'>>='", "'&='", "'^='",
                     "'|='", "'=='", "'!='", "'->'", "'.'", "'...'" ]

    symbolicNames = [ "<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
                      "<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
                      "<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
                      "<INVALID>", "<INVALID>", "<INVALID>", "Auto", "Break",
                      "Case", "Char", "Const", "Continue", "Default", "Do",
                      "Double", "Else", "Enum", "Extern", "Float", "For",
                      "Goto", "If", "Inline", "Int", "Long", "Register",
                      "Restrict", "Return", "Short", "Signed", "Sizeof",
                      "Static", "Struct", "Switch", "Typedef", "Union",
                      "Unsigned", "Void", "Volatile", "While", "Alignas",
                      "Alignof", "Atomic", "Bool", "Complex", "Generic",
                      "Imaginary", "Noreturn", "StaticAssert", "ThreadLocal",
                      "LeftParen", "RightParen", "LeftBracket", "RightBracket",
                      "LeftBrace", "RightBrace", "Less", "LessEqual", "Greater",
                      "GreaterEqual", "LeftShift", "RightShift", "Plus",
                      "PlusPlus", "Minus", "MinusMinus", "Star", "Div",
                      "Mod", "And", "Or", "AndAnd", "OrOr", "Caret", "Not",
                      "Tilde", "Question", "Colon", "Semi", "Comma", "Assign",
                      "StarAssign", "DivAssign", "ModAssign", "PlusAssign",
                      "MinusAssign", "LeftShiftAssign", "RightShiftAssign",
                      "AndAssign", "XorAssign", "OrAssign", "Equal", "NotEqual",
                      "Arrow", "Dot", "Ellipsis", "Identifier", "Constant",
                      "StringLiteral", "LineDirective", "PragmaDirective",
                      "Whitespace", "Newline", "BlockComment", "LineComment" ]

    RULE_primaryExpression = 0
    RULE_genericSelection = 1
    RULE_genericAssocList = 2
    RULE_genericAssociation = 3
    RULE_postfixExpression = 4
    RULE_argumentExpressionList = 5
    RULE_unaryExpression = 6
    RULE_unaryOperator = 7
    RULE_castExpression = 8
    RULE_multiplicativeExpression = 9
    RULE_additiveExpression = 10
    RULE_shiftExpression = 11
    RULE_relationalExpression = 12
    RULE_equalityExpression = 13
    RULE_andExpression = 14
    RULE_exclusiveOrExpression = 15
    RULE_inclusiveOrExpression = 16
    RULE_logicalAndExpression = 17
    RULE_logicalOrExpression = 18
    RULE_conditionalExpression = 19
    RULE_assignmentExpression = 20
    RULE_assignmentOperator = 21
    RULE_expression = 22
    RULE_constantExpression = 23
    RULE_declaration = 24
    RULE_declarationSpecifiers = 25
    RULE_declarationSpecifiers2 = 26
    RULE_declarationSpecifier = 27
    RULE_initDeclaratorList = 28
    RULE_initDeclarator = 29
    RULE_storageClassSpecifier = 30
    RULE_typeSpecifier = 31
    RULE_structOrUnionSpecifier = 32
    RULE_structOrUnion = 33
    RULE_structDeclarationList = 34
    RULE_structDeclaration = 35
    RULE_specifierQualifierList = 36
    RULE_structDeclaratorList = 37
    RULE_structDeclarator = 38
    RULE_enumSpecifier = 39
    RULE_enumeratorList = 40
    RULE_enumerator = 41
    RULE_enumerationConstant = 42
    RULE_atomicTypeSpecifier = 43
    RULE_typeQualifier = 44
    RULE_functionSpecifier = 45
    RULE_alignmentSpecifier = 46
    RULE_declarator = 47
    RULE_directDeclarator = 48
    RULE_gccDeclaratorExtension = 49
    RULE_gccAttributeSpecifier = 50
    RULE_gccAttributeList = 51
    RULE_gccAttribute = 52
    RULE_nestedParenthesesBlock = 53
    RULE_pointer = 54
    RULE_typeQualifierList = 55
    RULE_parameterTypeList = 56
    RULE_parameterList = 57
    RULE_parameterDeclaration = 58
    RULE_identifierList = 59
    RULE_typeName = 60
    RULE_abstractDeclarator = 61
    RULE_directAbstractDeclarator = 62
    RULE_typedefName = 63
    RULE_initializer = 64
    RULE_initializerList = 65
    RULE_designation = 66
    RULE_designatorList = 67
    RULE_designator = 68
    RULE_staticAssertDeclaration = 69
    RULE_statement = 70
    RULE_labeledStatement = 71
    RULE_compoundStatement = 72
    RULE_blockItemList = 73
    RULE_blockItem = 74
    RULE_expressionStatement = 75
    RULE_selectionStatement = 76
    RULE_iterationStatement = 77
    RULE_jumpStatement = 78
    RULE_compilationUnit = 79
    RULE_translationUnit = 80
    RULE_externalDeclaration = 81
    RULE_functionDefinition = 82
    RULE_declarationList = 83

    ruleNames =  [ "primaryExpression", "genericSelection", "genericAssocList",
                   "genericAssociation", "postfixExpression", "argumentExpressionList",
                   "unaryExpression", "unaryOperator", "castExpression",
                   "multiplicativeExpression", "additiveExpression", "shiftExpression",
                   "relationalExpression", "equalityExpression", "andExpression",
                   "exclusiveOrExpression", "inclusiveOrExpression", "logicalAndExpression",
                   "logicalOrExpression", "conditionalExpression", "assignmentExpression",
                   "assignmentOperator", "expression", "constantExpression",
                   "declaration", "declarationSpecifiers", "declarationSpecifiers2",
                   "declarationSpecifier", "initDeclaratorList", "initDeclarator",
                   "storageClassSpecifier", "typeSpecifier", "structOrUnionSpecifier",
                   "structOrUnion", "structDeclarationList", "structDeclaration",
                   "specifierQualifierList", "structDeclaratorList", "structDeclarator",
                   "enumSpecifier", "enumeratorList", "enumerator", "enumerationConstant",
                   "atomicTypeSpecifier", "typeQualifier", "functionSpecifier",
                   "alignmentSpecifier", "declarator", "directDeclarator",
                   "gccDeclaratorExtension", "gccAttributeSpecifier", "gccAttributeList",
                   "gccAttribute", "nestedParenthesesBlock", "pointer",
                   "typeQualifierList", "parameterTypeList", "parameterList",
                   "parameterDeclaration", "identifierList", "typeName",
                   "abstractDeclarator", "directAbstractDeclarator", "typedefName",
                   "initializer", "initializerList", "designation", "designatorList",
                   "designator", "staticAssertDeclaration", "statement",
                   "labeledStatement", "compoundStatement", "blockItemList",
                   "blockItem", "expressionStatement", "selectionStatement",
                   "iterationStatement", "jumpStatement", "compilationUnit",
                   "translationUnit", "externalDeclaration", "functionDefinition",
                   "declarationList" ]

    EOF = Token.EOF
    T__0=1
    T__1=2
    T__2=3
    T__3=4
    T__4=5
    T__5=6
    T__6=7
    T__7=8
    T__8=9
    T__9=10
    T__10=11
    T__11=12
    T__12=13
    T__13=14
    Auto=15
    Break=16
    Case=17
    Char=18
    Const=19
    Continue=20
    Default=21
    Do=22
    Double=23
    Else=24
    Enum=25
    Extern=26
    Float=27
    For=28
    Goto=29
    If=30
    Inline=31
    Int=32
    Long=33
    Register=34
    Restrict=35
    Return=36
    Short=37
    Signed=38
    Sizeof=39
    Static=40
    Struct=41
    Switch=42
    Typedef=43
    Union=44
    Unsigned=45
    Void=46
    Volatile=47
    While=48
    Alignas=49
    Alignof=50
    Atomic=51
    Bool=52
    Complex=53
    Generic=54
    Imaginary=55
    Noreturn=56
    StaticAssert=57
    ThreadLocal=58
    LeftParen=59
    RightParen=60
    LeftBracket=61
    RightBracket=62
    LeftBrace=63
    RightBrace=64
    Less=65
    LessEqual=66
    Greater=67
    GreaterEqual=68
    LeftShift=69
    RightShift=70
    Plus=71
    PlusPlus=72
    Minus=73
    MinusMinus=74
    Star=75
    Div=76
    Mod=77
    And=78
    Or=79
    AndAnd=80
    OrOr=81
    Caret=82
    Not=83
    Tilde=84
    Question=85
    Colon=86
    Semi=87
    Comma=88
    Assign=89
    StarAssign=90
    DivAssign=91
    ModAssign=92
    PlusAssign=93
    MinusAssign=94
    LeftShiftAssign=95
    RightShiftAssign=96
    AndAssign=97
    XorAssign=98
    OrAssign=99
    Equal=100
    NotEqual=101
    Arrow=102
    Dot=103
    Ellipsis=104
    Identifier=105
    Constant=106
    StringLiteral=107
    LineDirective=108
    PragmaDirective=109
    Whitespace=110
    Newline=111
    BlockComment=112
    LineComment=113

    def __init__(self, input:TokenStream):
        super().__init__(input)
        self.checkVersion("4.7.2")
        self._interp = ParserATNSimulator(self, self.atn, self.decisionsToDFA, self.sharedContextCache)
        self._predicates = None



    class PrimaryExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def Constant(self):
            return self.getToken(CParser.Constant, 0)

        def StringLiteral(self, i:int=None):
            if i is None:
                return self.getTokens(CParser.StringLiteral)
            else:
                return self.getToken(CParser.StringLiteral, i)

        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def genericSelection(self):
            return self.getTypedRuleContext(CParser.GenericSelectionContext,0)


        def compoundStatement(self):
            return self.getTypedRuleContext(CParser.CompoundStatementContext,0)


        def unaryExpression(self):
            return self.getTypedRuleContext(CParser.UnaryExpressionContext,0)


        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def getRuleIndex(self):
            return CParser.RULE_primaryExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterPrimaryExpression" ):
                listener.enterPrimaryExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitPrimaryExpression" ):
                listener.exitPrimaryExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitPrimaryExpression" ):
                return visitor.visitPrimaryExpression(self)
            else:
                return visitor.visitChildren(self)




    def primaryExpression(self):

        localctx = CParser.PrimaryExpressionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 0, self.RULE_primaryExpression)
        self._la = 0 # Token type
        try:
            self.state = 201
            la_ = self._interp.adaptivePredict(self._input,2,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 168
                self.match(CParser.Identifier)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 169
                self.match(CParser.Constant)
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 171
                self._errHandler.sync(self)
                _alt = 1
                while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                    if _alt == 1:
                        self.state = 170
                        self.match(CParser.StringLiteral)

                    else:
                        raise NoViableAltException(self)
                    self.state = 173
                    self._errHandler.sync(self)
                    _alt = self._interp.adaptivePredict(self._input,0,self._ctx)

                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 175
                self.match(CParser.LeftParen)
                self.state = 176
                self.expression(0)
                self.state = 177
                self.match(CParser.RightParen)
                pass

            elif la_ == 5:
                self.enterOuterAlt(localctx, 5)
                self.state = 179
                self.genericSelection()
                pass

            elif la_ == 6:
                self.enterOuterAlt(localctx, 6)
                self.state = 181
                _la = self._input.LA(1)
                if _la==CParser.T__0:
                    self.state = 180
                    self.match(CParser.T__0)


                self.state = 183
                self.match(CParser.LeftParen)
                self.state = 184
                self.compoundStatement()
                self.state = 185
                self.match(CParser.RightParen)
                pass

            elif la_ == 7:
                self.enterOuterAlt(localctx, 7)
                self.state = 187
                self.match(CParser.T__1)
                self.state = 188
                self.match(CParser.LeftParen)
                self.state = 189
                self.unaryExpression()
                self.state = 190
                self.match(CParser.Comma)
                self.state = 191
                self.typeName()
                self.state = 192
                self.match(CParser.RightParen)
                pass

            elif la_ == 8:
                self.enterOuterAlt(localctx, 8)
                self.state = 194
                self.match(CParser.T__2)
                self.state = 195
                self.match(CParser.LeftParen)
                self.state = 196
                self.typeName()
                self.state = 197
                self.match(CParser.Comma)
                self.state = 198
                self.unaryExpression()
                self.state = 199
                self.match(CParser.RightParen)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class GenericSelectionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def genericAssocList(self):
            return self.getTypedRuleContext(CParser.GenericAssocListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_genericSelection

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGenericSelection" ):
                listener.enterGenericSelection(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGenericSelection" ):
                listener.exitGenericSelection(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGenericSelection" ):
                return visitor.visitGenericSelection(self)
            else:
                return visitor.visitChildren(self)




    def genericSelection(self):

        localctx = CParser.GenericSelectionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 2, self.RULE_genericSelection)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 203
            self.match(CParser.Generic)
            self.state = 204
            self.match(CParser.LeftParen)
            self.state = 205
            self.assignmentExpression()
            self.state = 206
            self.match(CParser.Comma)
            self.state = 207
            self.genericAssocList(0)
            self.state = 208
            self.match(CParser.RightParen)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class GenericAssocListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def genericAssociation(self):
            return self.getTypedRuleContext(CParser.GenericAssociationContext,0)


        def genericAssocList(self):
            return self.getTypedRuleContext(CParser.GenericAssocListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_genericAssocList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGenericAssocList" ):
                listener.enterGenericAssocList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGenericAssocList" ):
                listener.exitGenericAssocList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGenericAssocList" ):
                return visitor.visitGenericAssocList(self)
            else:
                return visitor.visitChildren(self)



    def genericAssocList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.GenericAssocListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 4
        self.enterRecursionRule(localctx, 4, self.RULE_genericAssocList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 211
            self.genericAssociation()
            self._ctx.stop = self._input.LT(-1)
            self.state = 218
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,3,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.GenericAssocListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_genericAssocList)
                    self.state = 213
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 214
                    self.match(CParser.Comma)
                    self.state = 215
                    self.genericAssociation()
                self.state = 220
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,3,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class GenericAssociationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_genericAssociation

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGenericAssociation" ):
                listener.enterGenericAssociation(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGenericAssociation" ):
                listener.exitGenericAssociation(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGenericAssociation" ):
                return visitor.visitGenericAssociation(self)
            else:
                return visitor.visitChildren(self)




    def genericAssociation(self):

        localctx = CParser.GenericAssociationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 6, self.RULE_genericAssociation)
        try:
            self.state = 228
            token = self._input.LA(1)
            if token in [CParser.T__0, CParser.T__3, CParser.T__4, CParser.T__5, CParser.T__6, CParser.Char, CParser.Const, CParser.Double, CParser.Enum, CParser.Float, CParser.Int, CParser.Long, CParser.Restrict, CParser.Short, CParser.Signed, CParser.Struct, CParser.Union, CParser.Unsigned, CParser.Void, CParser.Volatile, CParser.Atomic, CParser.Bool, CParser.Complex, CParser.Identifier]:
                self.enterOuterAlt(localctx, 1)
                self.state = 221
                self.typeName()
                self.state = 222
                self.match(CParser.Colon)
                self.state = 223
                self.assignmentExpression()

            elif token in [CParser.Default]:
                self.enterOuterAlt(localctx, 2)
                self.state = 225
                self.match(CParser.Default)
                self.state = 226
                self.match(CParser.Colon)
                self.state = 227
                self.assignmentExpression()

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class PostfixExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def primaryExpression(self):
            return self.getTypedRuleContext(CParser.PrimaryExpressionContext,0)


        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def initializerList(self):
            return self.getTypedRuleContext(CParser.InitializerListContext,0)


        def postfixExpression(self):
            return self.getTypedRuleContext(CParser.PostfixExpressionContext,0)


        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def argumentExpressionList(self):
            return self.getTypedRuleContext(CParser.ArgumentExpressionListContext,0)


        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_postfixExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterPostfixExpression" ):
                listener.enterPostfixExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitPostfixExpression" ):
                listener.exitPostfixExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitPostfixExpression" ):
                return visitor.visitPostfixExpression(self)
            else:
                return visitor.visitChildren(self)



    def postfixExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.PostfixExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 8
        self.enterRecursionRule(localctx, 8, self.RULE_postfixExpression, _p)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 264
            la_ = self._interp.adaptivePredict(self._input,5,self._ctx)
            if la_ == 1:
                self.state = 231
                self.primaryExpression()
                pass

            elif la_ == 2:
                self.state = 232
                self.match(CParser.LeftParen)
                self.state = 233
                self.typeName()
                self.state = 234
                self.match(CParser.RightParen)
                self.state = 235
                self.match(CParser.LeftBrace)
                self.state = 236
                self.initializerList(0)
                self.state = 237
                self.match(CParser.RightBrace)
                pass

            elif la_ == 3:
                self.state = 239
                self.match(CParser.LeftParen)
                self.state = 240
                self.typeName()
                self.state = 241
                self.match(CParser.RightParen)
                self.state = 242
                self.match(CParser.LeftBrace)
                self.state = 243
                self.initializerList(0)
                self.state = 244
                self.match(CParser.Comma)
                self.state = 245
                self.match(CParser.RightBrace)
                pass

            elif la_ == 4:
                self.state = 247
                self.match(CParser.T__0)
                self.state = 248
                self.match(CParser.LeftParen)
                self.state = 249
                self.typeName()
                self.state = 250
                self.match(CParser.RightParen)
                self.state = 251
                self.match(CParser.LeftBrace)
                self.state = 252
                self.initializerList(0)
                self.state = 253
                self.match(CParser.RightBrace)
                pass

            elif la_ == 5:
                self.state = 255
                self.match(CParser.T__0)
                self.state = 256
                self.match(CParser.LeftParen)
                self.state = 257
                self.typeName()
                self.state = 258
                self.match(CParser.RightParen)
                self.state = 259
                self.match(CParser.LeftBrace)
                self.state = 260
                self.initializerList(0)
                self.state = 261
                self.match(CParser.Comma)
                self.state = 262
                self.match(CParser.RightBrace)
                pass


            self._ctx.stop = self._input.LT(-1)
            self.state = 289
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,8,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 287
                    la_ = self._interp.adaptivePredict(self._input,7,self._ctx)
                    if la_ == 1:
                        localctx = CParser.PostfixExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_postfixExpression)
                        self.state = 266
                        if not self.precpred(self._ctx, 10):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 10)")
                        self.state = 267
                        self.match(CParser.LeftBracket)
                        self.state = 268
                        self.expression(0)
                        self.state = 269
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 2:
                        localctx = CParser.PostfixExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_postfixExpression)
                        self.state = 271
                        if not self.precpred(self._ctx, 9):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 9)")
                        self.state = 272
                        self.match(CParser.LeftParen)
                        self.state = 274
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                            self.state = 273
                            self.argumentExpressionList(0)


                        self.state = 276
                        self.match(CParser.RightParen)
                        pass

                    elif la_ == 3:
                        localctx = CParser.PostfixExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_postfixExpression)
                        self.state = 277
                        if not self.precpred(self._ctx, 8):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 8)")
                        self.state = 278
                        self.match(CParser.Dot)
                        self.state = 279
                        self.match(CParser.Identifier)
                        pass

                    elif la_ == 4:
                        localctx = CParser.PostfixExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_postfixExpression)
                        self.state = 280
                        if not self.precpred(self._ctx, 7):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 7)")
                        self.state = 281
                        self.match(CParser.Arrow)
                        self.state = 282
                        self.match(CParser.Identifier)
                        pass

                    elif la_ == 5:
                        localctx = CParser.PostfixExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_postfixExpression)
                        self.state = 283
                        if not self.precpred(self._ctx, 6):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 6)")
                        self.state = 284
                        self.match(CParser.PlusPlus)
                        pass

                    elif la_ == 6:
                        localctx = CParser.PostfixExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_postfixExpression)
                        self.state = 285
                        if not self.precpred(self._ctx, 5):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 5)")
                        self.state = 286
                        self.match(CParser.MinusMinus)
                        pass


                self.state = 291
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,8,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ArgumentExpressionListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def argumentExpressionList(self):
            return self.getTypedRuleContext(CParser.ArgumentExpressionListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_argumentExpressionList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterArgumentExpressionList" ):
                listener.enterArgumentExpressionList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitArgumentExpressionList" ):
                listener.exitArgumentExpressionList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitArgumentExpressionList" ):
                return visitor.visitArgumentExpressionList(self)
            else:
                return visitor.visitChildren(self)



    def argumentExpressionList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.ArgumentExpressionListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 10
        self.enterRecursionRule(localctx, 10, self.RULE_argumentExpressionList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 293
            self.assignmentExpression()
            self._ctx.stop = self._input.LT(-1)
            self.state = 300
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,9,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.ArgumentExpressionListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_argumentExpressionList)
                    self.state = 295
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 296
                    self.match(CParser.Comma)
                    self.state = 297
                    self.assignmentExpression()
                self.state = 302
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,9,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class UnaryExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def postfixExpression(self):
            return self.getTypedRuleContext(CParser.PostfixExpressionContext,0)


        def unaryExpression(self):
            return self.getTypedRuleContext(CParser.UnaryExpressionContext,0)


        def unaryOperator(self):
            return self.getTypedRuleContext(CParser.UnaryOperatorContext,0)


        def castExpression(self):
            return self.getTypedRuleContext(CParser.CastExpressionContext,0)


        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_unaryExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterUnaryExpression" ):
                listener.enterUnaryExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitUnaryExpression" ):
                listener.exitUnaryExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitUnaryExpression" ):
                return visitor.visitUnaryExpression(self)
            else:
                return visitor.visitChildren(self)




    def unaryExpression(self):

        localctx = CParser.UnaryExpressionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 12, self.RULE_unaryExpression)
        try:
            self.state = 325
            la_ = self._interp.adaptivePredict(self._input,10,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 303
                self.postfixExpression(0)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 304
                self.match(CParser.PlusPlus)
                self.state = 305
                self.unaryExpression()
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 306
                self.match(CParser.MinusMinus)
                self.state = 307
                self.unaryExpression()
                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 308
                self.unaryOperator()
                self.state = 309
                self.castExpression()
                pass

            elif la_ == 5:
                self.enterOuterAlt(localctx, 5)
                self.state = 311
                self.match(CParser.Sizeof)
                self.state = 312
                self.unaryExpression()
                pass

            elif la_ == 6:
                self.enterOuterAlt(localctx, 6)
                self.state = 313
                self.match(CParser.Sizeof)
                self.state = 314
                self.match(CParser.LeftParen)
                self.state = 315
                self.typeName()
                self.state = 316
                self.match(CParser.RightParen)
                pass

            elif la_ == 7:
                self.enterOuterAlt(localctx, 7)
                self.state = 318
                self.match(CParser.Alignof)
                self.state = 319
                self.match(CParser.LeftParen)
                self.state = 320
                self.typeName()
                self.state = 321
                self.match(CParser.RightParen)
                pass

            elif la_ == 8:
                self.enterOuterAlt(localctx, 8)
                self.state = 323
                self.match(CParser.AndAnd)
                self.state = 324
                self.match(CParser.Identifier)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class UnaryOperatorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser


        def getRuleIndex(self):
            return CParser.RULE_unaryOperator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterUnaryOperator" ):
                listener.enterUnaryOperator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitUnaryOperator" ):
                listener.exitUnaryOperator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitUnaryOperator" ):
                return visitor.visitUnaryOperator(self)
            else:
                return visitor.visitChildren(self)




    def unaryOperator(self):

        localctx = CParser.UnaryOperatorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 14, self.RULE_unaryOperator)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 327
            _la = self._input.LA(1)
            if not(((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)))) != 0)):
                self._errHandler.recoverInline(self)
            else:
                self.consume()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class CastExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def unaryExpression(self):
            return self.getTypedRuleContext(CParser.UnaryExpressionContext,0)


        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def castExpression(self):
            return self.getTypedRuleContext(CParser.CastExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_castExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterCastExpression" ):
                listener.enterCastExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitCastExpression" ):
                listener.exitCastExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitCastExpression" ):
                return visitor.visitCastExpression(self)
            else:
                return visitor.visitChildren(self)




    def castExpression(self):

        localctx = CParser.CastExpressionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 16, self.RULE_castExpression)
        try:
            self.state = 341
            la_ = self._interp.adaptivePredict(self._input,11,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 329
                self.unaryExpression()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 330
                self.match(CParser.LeftParen)
                self.state = 331
                self.typeName()
                self.state = 332
                self.match(CParser.RightParen)
                self.state = 333
                self.castExpression()
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 335
                self.match(CParser.T__0)
                self.state = 336
                self.match(CParser.LeftParen)
                self.state = 337
                self.typeName()
                self.state = 338
                self.match(CParser.RightParen)
                self.state = 339
                self.castExpression()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class MultiplicativeExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def castExpression(self):
            return self.getTypedRuleContext(CParser.CastExpressionContext,0)


        def multiplicativeExpression(self):
            return self.getTypedRuleContext(CParser.MultiplicativeExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_multiplicativeExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterMultiplicativeExpression" ):
                listener.enterMultiplicativeExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitMultiplicativeExpression" ):
                listener.exitMultiplicativeExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitMultiplicativeExpression" ):
                return visitor.visitMultiplicativeExpression(self)
            else:
                return visitor.visitChildren(self)



    def multiplicativeExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.MultiplicativeExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 18
        self.enterRecursionRule(localctx, 18, self.RULE_multiplicativeExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 344
            self.castExpression()
            self._ctx.stop = self._input.LT(-1)
            self.state = 357
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,13,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 355
                    la_ = self._interp.adaptivePredict(self._input,12,self._ctx)
                    if la_ == 1:
                        localctx = CParser.MultiplicativeExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_multiplicativeExpression)
                        self.state = 346
                        if not self.precpred(self._ctx, 3):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 3)")
                        self.state = 347
                        self.match(CParser.Star)
                        self.state = 348
                        self.castExpression()
                        pass

                    elif la_ == 2:
                        localctx = CParser.MultiplicativeExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_multiplicativeExpression)
                        self.state = 349
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 350
                        self.match(CParser.Div)
                        self.state = 351
                        self.castExpression()
                        pass

                    elif la_ == 3:
                        localctx = CParser.MultiplicativeExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_multiplicativeExpression)
                        self.state = 352
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 353
                        self.match(CParser.Mod)
                        self.state = 354
                        self.castExpression()
                        pass


                self.state = 359
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,13,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class AdditiveExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def multiplicativeExpression(self):
            return self.getTypedRuleContext(CParser.MultiplicativeExpressionContext,0)


        def additiveExpression(self):
            return self.getTypedRuleContext(CParser.AdditiveExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_additiveExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAdditiveExpression" ):
                listener.enterAdditiveExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAdditiveExpression" ):
                listener.exitAdditiveExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAdditiveExpression" ):
                return visitor.visitAdditiveExpression(self)
            else:
                return visitor.visitChildren(self)



    def additiveExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.AdditiveExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 20
        self.enterRecursionRule(localctx, 20, self.RULE_additiveExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 361
            self.multiplicativeExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 371
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,15,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 369
                    la_ = self._interp.adaptivePredict(self._input,14,self._ctx)
                    if la_ == 1:
                        localctx = CParser.AdditiveExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_additiveExpression)
                        self.state = 363
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 364
                        self.match(CParser.Plus)
                        self.state = 365
                        self.multiplicativeExpression(0)
                        pass

                    elif la_ == 2:
                        localctx = CParser.AdditiveExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_additiveExpression)
                        self.state = 366
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 367
                        self.match(CParser.Minus)
                        self.state = 368
                        self.multiplicativeExpression(0)
                        pass


                self.state = 373
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,15,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ShiftExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def additiveExpression(self):
            return self.getTypedRuleContext(CParser.AdditiveExpressionContext,0)


        def shiftExpression(self):
            return self.getTypedRuleContext(CParser.ShiftExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_shiftExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterShiftExpression" ):
                listener.enterShiftExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitShiftExpression" ):
                listener.exitShiftExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitShiftExpression" ):
                return visitor.visitShiftExpression(self)
            else:
                return visitor.visitChildren(self)



    def shiftExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.ShiftExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 22
        self.enterRecursionRule(localctx, 22, self.RULE_shiftExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 375
            self.additiveExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 385
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,17,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 383
                    la_ = self._interp.adaptivePredict(self._input,16,self._ctx)
                    if la_ == 1:
                        localctx = CParser.ShiftExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_shiftExpression)
                        self.state = 377
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 378
                        self.match(CParser.LeftShift)
                        self.state = 379
                        self.additiveExpression(0)
                        pass

                    elif la_ == 2:
                        localctx = CParser.ShiftExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_shiftExpression)
                        self.state = 380
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 381
                        self.match(CParser.RightShift)
                        self.state = 382
                        self.additiveExpression(0)
                        pass


                self.state = 387
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,17,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class RelationalExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def shiftExpression(self):
            return self.getTypedRuleContext(CParser.ShiftExpressionContext,0)


        def relationalExpression(self):
            return self.getTypedRuleContext(CParser.RelationalExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_relationalExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterRelationalExpression" ):
                listener.enterRelationalExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitRelationalExpression" ):
                listener.exitRelationalExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitRelationalExpression" ):
                return visitor.visitRelationalExpression(self)
            else:
                return visitor.visitChildren(self)



    def relationalExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.RelationalExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 24
        self.enterRecursionRule(localctx, 24, self.RULE_relationalExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 389
            self.shiftExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 405
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,19,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 403
                    la_ = self._interp.adaptivePredict(self._input,18,self._ctx)
                    if la_ == 1:
                        localctx = CParser.RelationalExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_relationalExpression)
                        self.state = 391
                        if not self.precpred(self._ctx, 4):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 4)")
                        self.state = 392
                        self.match(CParser.Less)
                        self.state = 393
                        self.shiftExpression(0)
                        pass

                    elif la_ == 2:
                        localctx = CParser.RelationalExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_relationalExpression)
                        self.state = 394
                        if not self.precpred(self._ctx, 3):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 3)")
                        self.state = 395
                        self.match(CParser.Greater)
                        self.state = 396
                        self.shiftExpression(0)
                        pass

                    elif la_ == 3:
                        localctx = CParser.RelationalExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_relationalExpression)
                        self.state = 397
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 398
                        self.match(CParser.LessEqual)
                        self.state = 399
                        self.shiftExpression(0)
                        pass

                    elif la_ == 4:
                        localctx = CParser.RelationalExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_relationalExpression)
                        self.state = 400
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 401
                        self.match(CParser.GreaterEqual)
                        self.state = 402
                        self.shiftExpression(0)
                        pass


                self.state = 407
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,19,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class EqualityExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def relationalExpression(self):
            return self.getTypedRuleContext(CParser.RelationalExpressionContext,0)


        def equalityExpression(self):
            return self.getTypedRuleContext(CParser.EqualityExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_equalityExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterEqualityExpression" ):
                listener.enterEqualityExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitEqualityExpression" ):
                listener.exitEqualityExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitEqualityExpression" ):
                return visitor.visitEqualityExpression(self)
            else:
                return visitor.visitChildren(self)



    def equalityExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.EqualityExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 26
        self.enterRecursionRule(localctx, 26, self.RULE_equalityExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 409
            self.relationalExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 419
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,21,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 417
                    la_ = self._interp.adaptivePredict(self._input,20,self._ctx)
                    if la_ == 1:
                        localctx = CParser.EqualityExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_equalityExpression)
                        self.state = 411
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 412
                        self.match(CParser.Equal)
                        self.state = 413
                        self.relationalExpression(0)
                        pass

                    elif la_ == 2:
                        localctx = CParser.EqualityExpressionContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_equalityExpression)
                        self.state = 414
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 415
                        self.match(CParser.NotEqual)
                        self.state = 416
                        self.relationalExpression(0)
                        pass


                self.state = 421
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,21,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class AndExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def equalityExpression(self):
            return self.getTypedRuleContext(CParser.EqualityExpressionContext,0)


        def andExpression(self):
            return self.getTypedRuleContext(CParser.AndExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_andExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAndExpression" ):
                listener.enterAndExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAndExpression" ):
                listener.exitAndExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAndExpression" ):
                return visitor.visitAndExpression(self)
            else:
                return visitor.visitChildren(self)



    def andExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.AndExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 28
        self.enterRecursionRule(localctx, 28, self.RULE_andExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 423
            self.equalityExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 430
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,22,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.AndExpressionContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_andExpression)
                    self.state = 425
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 426
                    self.match(CParser.And)
                    self.state = 427
                    self.equalityExpression(0)
                self.state = 432
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,22,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ExclusiveOrExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def andExpression(self):
            return self.getTypedRuleContext(CParser.AndExpressionContext,0)


        def exclusiveOrExpression(self):
            return self.getTypedRuleContext(CParser.ExclusiveOrExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_exclusiveOrExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterExclusiveOrExpression" ):
                listener.enterExclusiveOrExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitExclusiveOrExpression" ):
                listener.exitExclusiveOrExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitExclusiveOrExpression" ):
                return visitor.visitExclusiveOrExpression(self)
            else:
                return visitor.visitChildren(self)



    def exclusiveOrExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.ExclusiveOrExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 30
        self.enterRecursionRule(localctx, 30, self.RULE_exclusiveOrExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 434
            self.andExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 441
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,23,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.ExclusiveOrExpressionContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_exclusiveOrExpression)
                    self.state = 436
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 437
                    self.match(CParser.Caret)
                    self.state = 438
                    self.andExpression(0)
                self.state = 443
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,23,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class InclusiveOrExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def exclusiveOrExpression(self):
            return self.getTypedRuleContext(CParser.ExclusiveOrExpressionContext,0)


        def inclusiveOrExpression(self):
            return self.getTypedRuleContext(CParser.InclusiveOrExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_inclusiveOrExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterInclusiveOrExpression" ):
                listener.enterInclusiveOrExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitInclusiveOrExpression" ):
                listener.exitInclusiveOrExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitInclusiveOrExpression" ):
                return visitor.visitInclusiveOrExpression(self)
            else:
                return visitor.visitChildren(self)



    def inclusiveOrExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.InclusiveOrExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 32
        self.enterRecursionRule(localctx, 32, self.RULE_inclusiveOrExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 445
            self.exclusiveOrExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 452
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,24,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.InclusiveOrExpressionContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_inclusiveOrExpression)
                    self.state = 447
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 448
                    self.match(CParser.Or)
                    self.state = 449
                    self.exclusiveOrExpression(0)
                self.state = 454
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,24,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class LogicalAndExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def inclusiveOrExpression(self):
            return self.getTypedRuleContext(CParser.InclusiveOrExpressionContext,0)


        def logicalAndExpression(self):
            return self.getTypedRuleContext(CParser.LogicalAndExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_logicalAndExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterLogicalAndExpression" ):
                listener.enterLogicalAndExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitLogicalAndExpression" ):
                listener.exitLogicalAndExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitLogicalAndExpression" ):
                return visitor.visitLogicalAndExpression(self)
            else:
                return visitor.visitChildren(self)



    def logicalAndExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.LogicalAndExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 34
        self.enterRecursionRule(localctx, 34, self.RULE_logicalAndExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 456
            self.inclusiveOrExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 463
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,25,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.LogicalAndExpressionContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_logicalAndExpression)
                    self.state = 458
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 459
                    self.match(CParser.AndAnd)
                    self.state = 460
                    self.inclusiveOrExpression(0)
                self.state = 465
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,25,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class LogicalOrExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def logicalAndExpression(self):
            return self.getTypedRuleContext(CParser.LogicalAndExpressionContext,0)


        def logicalOrExpression(self):
            return self.getTypedRuleContext(CParser.LogicalOrExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_logicalOrExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterLogicalOrExpression" ):
                listener.enterLogicalOrExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitLogicalOrExpression" ):
                listener.exitLogicalOrExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitLogicalOrExpression" ):
                return visitor.visitLogicalOrExpression(self)
            else:
                return visitor.visitChildren(self)



    def logicalOrExpression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.LogicalOrExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 36
        self.enterRecursionRule(localctx, 36, self.RULE_logicalOrExpression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 467
            self.logicalAndExpression(0)
            self._ctx.stop = self._input.LT(-1)
            self.state = 474
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,26,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.LogicalOrExpressionContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_logicalOrExpression)
                    self.state = 469
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 470
                    self.match(CParser.OrOr)
                    self.state = 471
                    self.logicalAndExpression(0)
                self.state = 476
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,26,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ConditionalExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def logicalOrExpression(self):
            return self.getTypedRuleContext(CParser.LogicalOrExpressionContext,0)


        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def conditionalExpression(self):
            return self.getTypedRuleContext(CParser.ConditionalExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_conditionalExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterConditionalExpression" ):
                listener.enterConditionalExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitConditionalExpression" ):
                listener.exitConditionalExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitConditionalExpression" ):
                return visitor.visitConditionalExpression(self)
            else:
                return visitor.visitChildren(self)




    def conditionalExpression(self):

        localctx = CParser.ConditionalExpressionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 38, self.RULE_conditionalExpression)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 477
            self.logicalOrExpression(0)
            self.state = 483
            la_ = self._interp.adaptivePredict(self._input,27,self._ctx)
            if la_ == 1:
                self.state = 478
                self.match(CParser.Question)
                self.state = 479
                self.expression(0)
                self.state = 480
                self.match(CParser.Colon)
                self.state = 481
                self.conditionalExpression()


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class AssignmentExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def conditionalExpression(self):
            return self.getTypedRuleContext(CParser.ConditionalExpressionContext,0)


        def unaryExpression(self):
            return self.getTypedRuleContext(CParser.UnaryExpressionContext,0)


        def assignmentOperator(self):
            return self.getTypedRuleContext(CParser.AssignmentOperatorContext,0)


        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_assignmentExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAssignmentExpression" ):
                listener.enterAssignmentExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAssignmentExpression" ):
                listener.exitAssignmentExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAssignmentExpression" ):
                return visitor.visitAssignmentExpression(self)
            else:
                return visitor.visitChildren(self)




    def assignmentExpression(self):

        localctx = CParser.AssignmentExpressionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 40, self.RULE_assignmentExpression)
        try:
            self.state = 490
            la_ = self._interp.adaptivePredict(self._input,28,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 485
                self.conditionalExpression()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 486
                self.unaryExpression()
                self.state = 487
                self.assignmentOperator()
                self.state = 488
                self.assignmentExpression()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class AssignmentOperatorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser


        def getRuleIndex(self):
            return CParser.RULE_assignmentOperator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAssignmentOperator" ):
                listener.enterAssignmentOperator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAssignmentOperator" ):
                listener.exitAssignmentOperator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAssignmentOperator" ):
                return visitor.visitAssignmentOperator(self)
            else:
                return visitor.visitChildren(self)




    def assignmentOperator(self):

        localctx = CParser.AssignmentOperatorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 42, self.RULE_assignmentOperator)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 492
            _la = self._input.LA(1)
            if not(((((_la - 89)) & ~0x3f) == 0 and ((1 << (_la - 89)) & ((1 << (CParser.Assign - 89)) | (1 << (CParser.StarAssign - 89)) | (1 << (CParser.DivAssign - 89)) | (1 << (CParser.ModAssign - 89)) | (1 << (CParser.PlusAssign - 89)) | (1 << (CParser.MinusAssign - 89)) | (1 << (CParser.LeftShiftAssign - 89)) | (1 << (CParser.RightShiftAssign - 89)) | (1 << (CParser.AndAssign - 89)) | (1 << (CParser.XorAssign - 89)) | (1 << (CParser.OrAssign - 89)))) != 0)):
                self._errHandler.recoverInline(self)
            else:
                self.consume()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class ExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_expression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterExpression" ):
                listener.enterExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitExpression" ):
                listener.exitExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitExpression" ):
                return visitor.visitExpression(self)
            else:
                return visitor.visitChildren(self)



    def expression(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.ExpressionContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 44
        self.enterRecursionRule(localctx, 44, self.RULE_expression, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 495
            self.assignmentExpression()
            self._ctx.stop = self._input.LT(-1)
            self.state = 502
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,29,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.ExpressionContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_expression)
                    self.state = 497
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 498
                    self.match(CParser.Comma)
                    self.state = 499
                    self.assignmentExpression()
                self.state = 504
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,29,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ConstantExpressionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def conditionalExpression(self):
            return self.getTypedRuleContext(CParser.ConditionalExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_constantExpression

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterConstantExpression" ):
                listener.enterConstantExpression(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitConstantExpression" ):
                listener.exitConstantExpression(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitConstantExpression" ):
                return visitor.visitConstantExpression(self)
            else:
                return visitor.visitChildren(self)




    def constantExpression(self):

        localctx = CParser.ConstantExpressionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 46, self.RULE_constantExpression)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 505
            self.conditionalExpression()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DeclarationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarationSpecifiers(self):
            return self.getTypedRuleContext(CParser.DeclarationSpecifiersContext,0)


        def initDeclaratorList(self):
            return self.getTypedRuleContext(CParser.InitDeclaratorListContext,0)


        def staticAssertDeclaration(self):
            return self.getTypedRuleContext(CParser.StaticAssertDeclarationContext,0)


        def getRuleIndex(self):
            return CParser.RULE_declaration

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDeclaration" ):
                listener.enterDeclaration(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDeclaration" ):
                listener.exitDeclaration(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDeclaration" ):
                return visitor.visitDeclaration(self)
            else:
                return visitor.visitChildren(self)




    def declaration(self):

        localctx = CParser.DeclarationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 48, self.RULE_declaration)
        self._la = 0 # Token type
        try:
            self.state = 514
            token = self._input.LA(1)
            if token in [CParser.T__0, CParser.T__3, CParser.T__4, CParser.T__5, CParser.T__6, CParser.T__7, CParser.T__8, CParser.T__9, CParser.T__11, CParser.Auto, CParser.Char, CParser.Const, CParser.Double, CParser.Enum, CParser.Extern, CParser.Float, CParser.Inline, CParser.Int, CParser.Long, CParser.Register, CParser.Restrict, CParser.Short, CParser.Signed, CParser.Static, CParser.Struct, CParser.Typedef, CParser.Union, CParser.Unsigned, CParser.Void, CParser.Volatile, CParser.Alignas, CParser.Atomic, CParser.Bool, CParser.Complex, CParser.Noreturn, CParser.ThreadLocal, CParser.Identifier]:
                self.enterOuterAlt(localctx, 1)
                self.state = 507
                self.declarationSpecifiers()
                self.state = 509
                _la = self._input.LA(1)
                if ((((_la - 59)) & ~0x3f) == 0 and ((1 << (_la - 59)) & ((1 << (CParser.LeftParen - 59)) | (1 << (CParser.Star - 59)) | (1 << (CParser.Caret - 59)) | (1 << (CParser.Identifier - 59)))) != 0):
                    self.state = 508
                    self.initDeclaratorList(0)


                self.state = 511
                self.match(CParser.Semi)

            elif token in [CParser.StaticAssert]:
                self.enterOuterAlt(localctx, 2)
                self.state = 513
                self.staticAssertDeclaration()

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DeclarationSpecifiersContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarationSpecifier(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.DeclarationSpecifierContext)
            else:
                return self.getTypedRuleContext(CParser.DeclarationSpecifierContext,i)


        def getRuleIndex(self):
            return CParser.RULE_declarationSpecifiers

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDeclarationSpecifiers" ):
                listener.enterDeclarationSpecifiers(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDeclarationSpecifiers" ):
                listener.exitDeclarationSpecifiers(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDeclarationSpecifiers" ):
                return visitor.visitDeclarationSpecifiers(self)
            else:
                return visitor.visitChildren(self)




    def declarationSpecifiers(self):

        localctx = CParser.DeclarationSpecifiersContext(self, self._ctx, self.state)
        self.enterRule(localctx, 50, self.RULE_declarationSpecifiers)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 517
            self._errHandler.sync(self)
            _alt = 1
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt == 1:
                    self.state = 516
                    self.declarationSpecifier()

                else:
                    raise NoViableAltException(self)
                self.state = 519
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,32,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DeclarationSpecifiers2Context(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarationSpecifier(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.DeclarationSpecifierContext)
            else:
                return self.getTypedRuleContext(CParser.DeclarationSpecifierContext,i)


        def getRuleIndex(self):
            return CParser.RULE_declarationSpecifiers2

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDeclarationSpecifiers2" ):
                listener.enterDeclarationSpecifiers2(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDeclarationSpecifiers2" ):
                listener.exitDeclarationSpecifiers2(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDeclarationSpecifiers2" ):
                return visitor.visitDeclarationSpecifiers2(self)
            else:
                return visitor.visitChildren(self)




    def declarationSpecifiers2(self):

        localctx = CParser.DeclarationSpecifiers2Context(self, self._ctx, self.state)
        self.enterRule(localctx, 52, self.RULE_declarationSpecifiers2)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 522
            self._errHandler.sync(self)
            _alt = 1
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt == 1:
                    self.state = 521
                    self.declarationSpecifier()

                else:
                    raise NoViableAltException(self)
                self.state = 524
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,33,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DeclarationSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def storageClassSpecifier(self):
            return self.getTypedRuleContext(CParser.StorageClassSpecifierContext,0)


        def typeSpecifier(self):
            return self.getTypedRuleContext(CParser.TypeSpecifierContext,0)


        def typeQualifier(self):
            return self.getTypedRuleContext(CParser.TypeQualifierContext,0)


        def functionSpecifier(self):
            return self.getTypedRuleContext(CParser.FunctionSpecifierContext,0)


        def alignmentSpecifier(self):
            return self.getTypedRuleContext(CParser.AlignmentSpecifierContext,0)


        def getRuleIndex(self):
            return CParser.RULE_declarationSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDeclarationSpecifier" ):
                listener.enterDeclarationSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDeclarationSpecifier" ):
                listener.exitDeclarationSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDeclarationSpecifier" ):
                return visitor.visitDeclarationSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def declarationSpecifier(self):

        localctx = CParser.DeclarationSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 54, self.RULE_declarationSpecifier)
        try:
            self.state = 531
            la_ = self._interp.adaptivePredict(self._input,34,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 526
                self.storageClassSpecifier()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 527
                self.typeSpecifier()
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 528
                self.typeQualifier()
                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 529
                self.functionSpecifier()
                pass

            elif la_ == 5:
                self.enterOuterAlt(localctx, 5)
                self.state = 530
                self.alignmentSpecifier()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class InitDeclaratorListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def initDeclarator(self):
            return self.getTypedRuleContext(CParser.InitDeclaratorContext,0)


        def initDeclaratorList(self):
            return self.getTypedRuleContext(CParser.InitDeclaratorListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_initDeclaratorList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterInitDeclaratorList" ):
                listener.enterInitDeclaratorList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitInitDeclaratorList" ):
                listener.exitInitDeclaratorList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitInitDeclaratorList" ):
                return visitor.visitInitDeclaratorList(self)
            else:
                return visitor.visitChildren(self)



    def initDeclaratorList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.InitDeclaratorListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 56
        self.enterRecursionRule(localctx, 56, self.RULE_initDeclaratorList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 534
            self.initDeclarator()
            self._ctx.stop = self._input.LT(-1)
            self.state = 541
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,35,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.InitDeclaratorListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_initDeclaratorList)
                    self.state = 536
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 537
                    self.match(CParser.Comma)
                    self.state = 538
                    self.initDeclarator()
                self.state = 543
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,35,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class InitDeclaratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarator(self):
            return self.getTypedRuleContext(CParser.DeclaratorContext,0)


        def initializer(self):
            return self.getTypedRuleContext(CParser.InitializerContext,0)


        def getRuleIndex(self):
            return CParser.RULE_initDeclarator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterInitDeclarator" ):
                listener.enterInitDeclarator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitInitDeclarator" ):
                listener.exitInitDeclarator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitInitDeclarator" ):
                return visitor.visitInitDeclarator(self)
            else:
                return visitor.visitChildren(self)




    def initDeclarator(self):

        localctx = CParser.InitDeclaratorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 58, self.RULE_initDeclarator)
        try:
            self.state = 549
            la_ = self._interp.adaptivePredict(self._input,36,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 544
                self.declarator()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 545
                self.declarator()
                self.state = 546
                self.match(CParser.Assign)
                self.state = 547
                self.initializer()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StorageClassSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser


        def getRuleIndex(self):
            return CParser.RULE_storageClassSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStorageClassSpecifier" ):
                listener.enterStorageClassSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStorageClassSpecifier" ):
                listener.exitStorageClassSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStorageClassSpecifier" ):
                return visitor.visitStorageClassSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def storageClassSpecifier(self):

        localctx = CParser.StorageClassSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 60, self.RULE_storageClassSpecifier)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 551
            _la = self._input.LA(1)
            if not((((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Auto) | (1 << CParser.Extern) | (1 << CParser.Register) | (1 << CParser.Static) | (1 << CParser.Typedef) | (1 << CParser.ThreadLocal))) != 0)):
                self._errHandler.recoverInline(self)
            else:
                self.consume()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class TypeSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def atomicTypeSpecifier(self):
            return self.getTypedRuleContext(CParser.AtomicTypeSpecifierContext,0)


        def structOrUnionSpecifier(self):
            return self.getTypedRuleContext(CParser.StructOrUnionSpecifierContext,0)


        def enumSpecifier(self):
            return self.getTypedRuleContext(CParser.EnumSpecifierContext,0)


        def typedefName(self):
            return self.getTypedRuleContext(CParser.TypedefNameContext,0)


        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_typeSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterTypeSpecifier" ):
                listener.enterTypeSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitTypeSpecifier" ):
                listener.exitTypeSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitTypeSpecifier" ):
                return visitor.visitTypeSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def typeSpecifier(self):

        localctx = CParser.TypeSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 62, self.RULE_typeSpecifier)
        self._la = 0 # Token type
        try:
            self.state = 567
            token = self._input.LA(1)
            if token in [CParser.T__3, CParser.T__4, CParser.T__5, CParser.Char, CParser.Double, CParser.Float, CParser.Int, CParser.Long, CParser.Short, CParser.Signed, CParser.Unsigned, CParser.Void, CParser.Bool, CParser.Complex]:
                self.enterOuterAlt(localctx, 1)
                self.state = 553
                _la = self._input.LA(1)
                if not((((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.Char) | (1 << CParser.Double) | (1 << CParser.Float) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Bool) | (1 << CParser.Complex))) != 0)):
                    self._errHandler.recoverInline(self)
                else:
                    self.consume()

            elif token in [CParser.T__0]:
                self.enterOuterAlt(localctx, 2)
                self.state = 554
                self.match(CParser.T__0)
                self.state = 555
                self.match(CParser.LeftParen)
                self.state = 556
                _la = self._input.LA(1)
                if not((((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5))) != 0)):
                    self._errHandler.recoverInline(self)
                else:
                    self.consume()
                self.state = 557
                self.match(CParser.RightParen)

            elif token in [CParser.Atomic]:
                self.enterOuterAlt(localctx, 3)
                self.state = 558
                self.atomicTypeSpecifier()

            elif token in [CParser.Struct, CParser.Union]:
                self.enterOuterAlt(localctx, 4)
                self.state = 559
                self.structOrUnionSpecifier()

            elif token in [CParser.Enum]:
                self.enterOuterAlt(localctx, 5)
                self.state = 560
                self.enumSpecifier()

            elif token in [CParser.Identifier]:
                self.enterOuterAlt(localctx, 6)
                self.state = 561
                self.typedefName()

            elif token in [CParser.T__6]:
                self.enterOuterAlt(localctx, 7)
                self.state = 562
                self.match(CParser.T__6)
                self.state = 563
                self.match(CParser.LeftParen)
                self.state = 564
                self.constantExpression()
                self.state = 565
                self.match(CParser.RightParen)

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StructOrUnionSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def structOrUnion(self):
            return self.getTypedRuleContext(CParser.StructOrUnionContext,0)


        def structDeclarationList(self):
            return self.getTypedRuleContext(CParser.StructDeclarationListContext,0)


        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_structOrUnionSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStructOrUnionSpecifier" ):
                listener.enterStructOrUnionSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStructOrUnionSpecifier" ):
                listener.exitStructOrUnionSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStructOrUnionSpecifier" ):
                return visitor.visitStructOrUnionSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def structOrUnionSpecifier(self):

        localctx = CParser.StructOrUnionSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 64, self.RULE_structOrUnionSpecifier)
        self._la = 0 # Token type
        try:
            self.state = 580
            la_ = self._interp.adaptivePredict(self._input,39,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 569
                self.structOrUnion()
                self.state = 571
                _la = self._input.LA(1)
                if _la==CParser.Identifier:
                    self.state = 570
                    self.match(CParser.Identifier)


                self.state = 573
                self.match(CParser.LeftBrace)
                self.state = 574
                self.structDeclarationList(0)
                self.state = 575
                self.match(CParser.RightBrace)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 577
                self.structOrUnion()
                self.state = 578
                self.match(CParser.Identifier)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StructOrUnionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser


        def getRuleIndex(self):
            return CParser.RULE_structOrUnion

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStructOrUnion" ):
                listener.enterStructOrUnion(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStructOrUnion" ):
                listener.exitStructOrUnion(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStructOrUnion" ):
                return visitor.visitStructOrUnion(self)
            else:
                return visitor.visitChildren(self)




    def structOrUnion(self):

        localctx = CParser.StructOrUnionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 66, self.RULE_structOrUnion)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 582
            _la = self._input.LA(1)
            if not(_la==CParser.Struct or _la==CParser.Union):
                self._errHandler.recoverInline(self)
            else:
                self.consume()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StructDeclarationListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def structDeclaration(self):
            return self.getTypedRuleContext(CParser.StructDeclarationContext,0)


        def structDeclarationList(self):
            return self.getTypedRuleContext(CParser.StructDeclarationListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_structDeclarationList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStructDeclarationList" ):
                listener.enterStructDeclarationList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStructDeclarationList" ):
                listener.exitStructDeclarationList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStructDeclarationList" ):
                return visitor.visitStructDeclarationList(self)
            else:
                return visitor.visitChildren(self)



    def structDeclarationList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.StructDeclarationListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 68
        self.enterRecursionRule(localctx, 68, self.RULE_structDeclarationList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 585
            self.structDeclaration()
            self._ctx.stop = self._input.LT(-1)
            self.state = 591
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,40,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.StructDeclarationListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_structDeclarationList)
                    self.state = 587
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 588
                    self.structDeclaration()
                self.state = 593
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,40,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class StructDeclarationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def specifierQualifierList(self):
            return self.getTypedRuleContext(CParser.SpecifierQualifierListContext,0)


        def structDeclaratorList(self):
            return self.getTypedRuleContext(CParser.StructDeclaratorListContext,0)


        def staticAssertDeclaration(self):
            return self.getTypedRuleContext(CParser.StaticAssertDeclarationContext,0)


        def getRuleIndex(self):
            return CParser.RULE_structDeclaration

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStructDeclaration" ):
                listener.enterStructDeclaration(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStructDeclaration" ):
                listener.exitStructDeclaration(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStructDeclaration" ):
                return visitor.visitStructDeclaration(self)
            else:
                return visitor.visitChildren(self)




    def structDeclaration(self):

        localctx = CParser.StructDeclarationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 70, self.RULE_structDeclaration)
        self._la = 0 # Token type
        try:
            self.state = 601
            token = self._input.LA(1)
            if token in [CParser.T__0, CParser.T__3, CParser.T__4, CParser.T__5, CParser.T__6, CParser.Char, CParser.Const, CParser.Double, CParser.Enum, CParser.Float, CParser.Int, CParser.Long, CParser.Restrict, CParser.Short, CParser.Signed, CParser.Struct, CParser.Union, CParser.Unsigned, CParser.Void, CParser.Volatile, CParser.Atomic, CParser.Bool, CParser.Complex, CParser.Identifier]:
                self.enterOuterAlt(localctx, 1)
                self.state = 594
                self.specifierQualifierList()
                self.state = 596
                _la = self._input.LA(1)
                if ((((_la - 59)) & ~0x3f) == 0 and ((1 << (_la - 59)) & ((1 << (CParser.LeftParen - 59)) | (1 << (CParser.Star - 59)) | (1 << (CParser.Caret - 59)) | (1 << (CParser.Colon - 59)) | (1 << (CParser.Identifier - 59)))) != 0):
                    self.state = 595
                    self.structDeclaratorList(0)


                self.state = 598
                self.match(CParser.Semi)

            elif token in [CParser.StaticAssert]:
                self.enterOuterAlt(localctx, 2)
                self.state = 600
                self.staticAssertDeclaration()

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class SpecifierQualifierListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def typeSpecifier(self):
            return self.getTypedRuleContext(CParser.TypeSpecifierContext,0)


        def specifierQualifierList(self):
            return self.getTypedRuleContext(CParser.SpecifierQualifierListContext,0)


        def typeQualifier(self):
            return self.getTypedRuleContext(CParser.TypeQualifierContext,0)


        def getRuleIndex(self):
            return CParser.RULE_specifierQualifierList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterSpecifierQualifierList" ):
                listener.enterSpecifierQualifierList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitSpecifierQualifierList" ):
                listener.exitSpecifierQualifierList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitSpecifierQualifierList" ):
                return visitor.visitSpecifierQualifierList(self)
            else:
                return visitor.visitChildren(self)




    def specifierQualifierList(self):

        localctx = CParser.SpecifierQualifierListContext(self, self._ctx, self.state)
        self.enterRule(localctx, 72, self.RULE_specifierQualifierList)
        try:
            self.state = 611
            la_ = self._interp.adaptivePredict(self._input,45,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 603
                self.typeSpecifier()
                self.state = 605
                la_ = self._interp.adaptivePredict(self._input,43,self._ctx)
                if la_ == 1:
                    self.state = 604
                    self.specifierQualifierList()


                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 607
                self.typeQualifier()
                self.state = 609
                la_ = self._interp.adaptivePredict(self._input,44,self._ctx)
                if la_ == 1:
                    self.state = 608
                    self.specifierQualifierList()


                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StructDeclaratorListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def structDeclarator(self):
            return self.getTypedRuleContext(CParser.StructDeclaratorContext,0)


        def structDeclaratorList(self):
            return self.getTypedRuleContext(CParser.StructDeclaratorListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_structDeclaratorList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStructDeclaratorList" ):
                listener.enterStructDeclaratorList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStructDeclaratorList" ):
                listener.exitStructDeclaratorList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStructDeclaratorList" ):
                return visitor.visitStructDeclaratorList(self)
            else:
                return visitor.visitChildren(self)



    def structDeclaratorList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.StructDeclaratorListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 74
        self.enterRecursionRule(localctx, 74, self.RULE_structDeclaratorList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 614
            self.structDeclarator()
            self._ctx.stop = self._input.LT(-1)
            self.state = 621
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,46,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.StructDeclaratorListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_structDeclaratorList)
                    self.state = 616
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 617
                    self.match(CParser.Comma)
                    self.state = 618
                    self.structDeclarator()
                self.state = 623
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,46,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class StructDeclaratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarator(self):
            return self.getTypedRuleContext(CParser.DeclaratorContext,0)


        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_structDeclarator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStructDeclarator" ):
                listener.enterStructDeclarator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStructDeclarator" ):
                listener.exitStructDeclarator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStructDeclarator" ):
                return visitor.visitStructDeclarator(self)
            else:
                return visitor.visitChildren(self)




    def structDeclarator(self):

        localctx = CParser.StructDeclaratorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 76, self.RULE_structDeclarator)
        self._la = 0 # Token type
        try:
            self.state = 630
            la_ = self._interp.adaptivePredict(self._input,48,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 624
                self.declarator()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 626
                _la = self._input.LA(1)
                if ((((_la - 59)) & ~0x3f) == 0 and ((1 << (_la - 59)) & ((1 << (CParser.LeftParen - 59)) | (1 << (CParser.Star - 59)) | (1 << (CParser.Caret - 59)) | (1 << (CParser.Identifier - 59)))) != 0):
                    self.state = 625
                    self.declarator()


                self.state = 628
                self.match(CParser.Colon)
                self.state = 629
                self.constantExpression()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class EnumSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def enumeratorList(self):
            return self.getTypedRuleContext(CParser.EnumeratorListContext,0)


        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_enumSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterEnumSpecifier" ):
                listener.enterEnumSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitEnumSpecifier" ):
                listener.exitEnumSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitEnumSpecifier" ):
                return visitor.visitEnumSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def enumSpecifier(self):

        localctx = CParser.EnumSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 78, self.RULE_enumSpecifier)
        self._la = 0 # Token type
        try:
            self.state = 651
            la_ = self._interp.adaptivePredict(self._input,51,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 632
                self.match(CParser.Enum)
                self.state = 634
                _la = self._input.LA(1)
                if _la==CParser.Identifier:
                    self.state = 633
                    self.match(CParser.Identifier)


                self.state = 636
                self.match(CParser.LeftBrace)
                self.state = 637
                self.enumeratorList(0)
                self.state = 638
                self.match(CParser.RightBrace)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 640
                self.match(CParser.Enum)
                self.state = 642
                _la = self._input.LA(1)
                if _la==CParser.Identifier:
                    self.state = 641
                    self.match(CParser.Identifier)


                self.state = 644
                self.match(CParser.LeftBrace)
                self.state = 645
                self.enumeratorList(0)
                self.state = 646
                self.match(CParser.Comma)
                self.state = 647
                self.match(CParser.RightBrace)
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 649
                self.match(CParser.Enum)
                self.state = 650
                self.match(CParser.Identifier)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class EnumeratorListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def enumerator(self):
            return self.getTypedRuleContext(CParser.EnumeratorContext,0)


        def enumeratorList(self):
            return self.getTypedRuleContext(CParser.EnumeratorListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_enumeratorList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterEnumeratorList" ):
                listener.enterEnumeratorList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitEnumeratorList" ):
                listener.exitEnumeratorList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitEnumeratorList" ):
                return visitor.visitEnumeratorList(self)
            else:
                return visitor.visitChildren(self)



    def enumeratorList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.EnumeratorListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 80
        self.enterRecursionRule(localctx, 80, self.RULE_enumeratorList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 654
            self.enumerator()
            self._ctx.stop = self._input.LT(-1)
            self.state = 661
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,52,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.EnumeratorListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_enumeratorList)
                    self.state = 656
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 657
                    self.match(CParser.Comma)
                    self.state = 658
                    self.enumerator()
                self.state = 663
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,52,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class EnumeratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def enumerationConstant(self):
            return self.getTypedRuleContext(CParser.EnumerationConstantContext,0)


        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_enumerator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterEnumerator" ):
                listener.enterEnumerator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitEnumerator" ):
                listener.exitEnumerator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitEnumerator" ):
                return visitor.visitEnumerator(self)
            else:
                return visitor.visitChildren(self)




    def enumerator(self):

        localctx = CParser.EnumeratorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 82, self.RULE_enumerator)
        try:
            self.state = 669
            la_ = self._interp.adaptivePredict(self._input,53,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 664
                self.enumerationConstant()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 665
                self.enumerationConstant()
                self.state = 666
                self.match(CParser.Assign)
                self.state = 667
                self.constantExpression()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class EnumerationConstantContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_enumerationConstant

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterEnumerationConstant" ):
                listener.enterEnumerationConstant(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitEnumerationConstant" ):
                listener.exitEnumerationConstant(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitEnumerationConstant" ):
                return visitor.visitEnumerationConstant(self)
            else:
                return visitor.visitChildren(self)




    def enumerationConstant(self):

        localctx = CParser.EnumerationConstantContext(self, self._ctx, self.state)
        self.enterRule(localctx, 84, self.RULE_enumerationConstant)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 671
            self.match(CParser.Identifier)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class AtomicTypeSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def getRuleIndex(self):
            return CParser.RULE_atomicTypeSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAtomicTypeSpecifier" ):
                listener.enterAtomicTypeSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAtomicTypeSpecifier" ):
                listener.exitAtomicTypeSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAtomicTypeSpecifier" ):
                return visitor.visitAtomicTypeSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def atomicTypeSpecifier(self):

        localctx = CParser.AtomicTypeSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 86, self.RULE_atomicTypeSpecifier)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 673
            self.match(CParser.Atomic)
            self.state = 674
            self.match(CParser.LeftParen)
            self.state = 675
            self.typeName()
            self.state = 676
            self.match(CParser.RightParen)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class TypeQualifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser


        def getRuleIndex(self):
            return CParser.RULE_typeQualifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterTypeQualifier" ):
                listener.enterTypeQualifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitTypeQualifier" ):
                listener.exitTypeQualifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitTypeQualifier" ):
                return visitor.visitTypeQualifier(self)
            else:
                return visitor.visitChildren(self)




    def typeQualifier(self):

        localctx = CParser.TypeQualifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 88, self.RULE_typeQualifier)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 678
            _la = self._input.LA(1)
            if not((((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0)):
                self._errHandler.recoverInline(self)
            else:
                self.consume()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class FunctionSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def gccAttributeSpecifier(self):
            return self.getTypedRuleContext(CParser.GccAttributeSpecifierContext,0)


        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_functionSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterFunctionSpecifier" ):
                listener.enterFunctionSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitFunctionSpecifier" ):
                listener.exitFunctionSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitFunctionSpecifier" ):
                return visitor.visitFunctionSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def functionSpecifier(self):

        localctx = CParser.FunctionSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 90, self.RULE_functionSpecifier)
        self._la = 0 # Token type
        try:
            self.state = 686
            token = self._input.LA(1)
            if token in [CParser.T__7, CParser.T__8, CParser.Inline, CParser.Noreturn]:
                self.enterOuterAlt(localctx, 1)
                self.state = 680
                _la = self._input.LA(1)
                if not((((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.Inline) | (1 << CParser.Noreturn))) != 0)):
                    self._errHandler.recoverInline(self)
                else:
                    self.consume()

            elif token in [CParser.T__11]:
                self.enterOuterAlt(localctx, 2)
                self.state = 681
                self.gccAttributeSpecifier()

            elif token in [CParser.T__9]:
                self.enterOuterAlt(localctx, 3)
                self.state = 682
                self.match(CParser.T__9)
                self.state = 683
                self.match(CParser.LeftParen)
                self.state = 684
                self.match(CParser.Identifier)
                self.state = 685
                self.match(CParser.RightParen)

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class AlignmentSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def typeName(self):
            return self.getTypedRuleContext(CParser.TypeNameContext,0)


        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_alignmentSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAlignmentSpecifier" ):
                listener.enterAlignmentSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAlignmentSpecifier" ):
                listener.exitAlignmentSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAlignmentSpecifier" ):
                return visitor.visitAlignmentSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def alignmentSpecifier(self):

        localctx = CParser.AlignmentSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 92, self.RULE_alignmentSpecifier)
        try:
            self.state = 698
            la_ = self._interp.adaptivePredict(self._input,55,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 688
                self.match(CParser.Alignas)
                self.state = 689
                self.match(CParser.LeftParen)
                self.state = 690
                self.typeName()
                self.state = 691
                self.match(CParser.RightParen)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 693
                self.match(CParser.Alignas)
                self.state = 694
                self.match(CParser.LeftParen)
                self.state = 695
                self.constantExpression()
                self.state = 696
                self.match(CParser.RightParen)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DeclaratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def directDeclarator(self):
            return self.getTypedRuleContext(CParser.DirectDeclaratorContext,0)


        def pointer(self):
            return self.getTypedRuleContext(CParser.PointerContext,0)


        def gccDeclaratorExtension(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.GccDeclaratorExtensionContext)
            else:
                return self.getTypedRuleContext(CParser.GccDeclaratorExtensionContext,i)


        def getRuleIndex(self):
            return CParser.RULE_declarator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDeclarator" ):
                listener.enterDeclarator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDeclarator" ):
                listener.exitDeclarator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDeclarator" ):
                return visitor.visitDeclarator(self)
            else:
                return visitor.visitChildren(self)




    def declarator(self):

        localctx = CParser.DeclaratorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 94, self.RULE_declarator)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 701
            _la = self._input.LA(1)
            if _la==CParser.Star or _la==CParser.Caret:
                self.state = 700
                self.pointer()


            self.state = 703
            self.directDeclarator(0)
            self.state = 707
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,57,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    self.state = 704
                    self.gccDeclaratorExtension()
                self.state = 709
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,57,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DirectDeclaratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def declarator(self):
            return self.getTypedRuleContext(CParser.DeclaratorContext,0)


        def directDeclarator(self):
            return self.getTypedRuleContext(CParser.DirectDeclaratorContext,0)


        def typeQualifierList(self):
            return self.getTypedRuleContext(CParser.TypeQualifierListContext,0)


        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def parameterTypeList(self):
            return self.getTypedRuleContext(CParser.ParameterTypeListContext,0)


        def identifierList(self):
            return self.getTypedRuleContext(CParser.IdentifierListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_directDeclarator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDirectDeclarator" ):
                listener.enterDirectDeclarator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDirectDeclarator" ):
                listener.exitDirectDeclarator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDirectDeclarator" ):
                return visitor.visitDirectDeclarator(self)
            else:
                return visitor.visitChildren(self)



    def directDeclarator(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.DirectDeclaratorContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 96
        self.enterRecursionRule(localctx, 96, self.RULE_directDeclarator, _p)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 716
            token = self._input.LA(1)
            if token in [CParser.Identifier]:
                self.state = 711
                self.match(CParser.Identifier)

            elif token in [CParser.LeftParen]:
                self.state = 712
                self.match(CParser.LeftParen)
                self.state = 713
                self.declarator()
                self.state = 714
                self.match(CParser.RightParen)

            else:
                raise NoViableAltException(self)

            self._ctx.stop = self._input.LT(-1)
            self.state = 763
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,65,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 761
                    la_ = self._interp.adaptivePredict(self._input,64,self._ctx)
                    if la_ == 1:
                        localctx = CParser.DirectDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directDeclarator)
                        self.state = 718
                        if not self.precpred(self._ctx, 6):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 6)")
                        self.state = 719
                        self.match(CParser.LeftBracket)
                        self.state = 721
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                            self.state = 720
                            self.typeQualifierList(0)


                        self.state = 724
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                            self.state = 723
                            self.assignmentExpression()


                        self.state = 726
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 2:
                        localctx = CParser.DirectDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directDeclarator)
                        self.state = 727
                        if not self.precpred(self._ctx, 5):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 5)")
                        self.state = 728
                        self.match(CParser.LeftBracket)
                        self.state = 729
                        self.match(CParser.Static)
                        self.state = 731
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                            self.state = 730
                            self.typeQualifierList(0)


                        self.state = 733
                        self.assignmentExpression()
                        self.state = 734
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 3:
                        localctx = CParser.DirectDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directDeclarator)
                        self.state = 736
                        if not self.precpred(self._ctx, 4):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 4)")
                        self.state = 737
                        self.match(CParser.LeftBracket)
                        self.state = 738
                        self.typeQualifierList(0)
                        self.state = 739
                        self.match(CParser.Static)
                        self.state = 740
                        self.assignmentExpression()
                        self.state = 741
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 4:
                        localctx = CParser.DirectDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directDeclarator)
                        self.state = 743
                        if not self.precpred(self._ctx, 3):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 3)")
                        self.state = 744
                        self.match(CParser.LeftBracket)
                        self.state = 746
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                            self.state = 745
                            self.typeQualifierList(0)


                        self.state = 748
                        self.match(CParser.Star)
                        self.state = 749
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 5:
                        localctx = CParser.DirectDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directDeclarator)
                        self.state = 750
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 751
                        self.match(CParser.LeftParen)
                        self.state = 752
                        self.parameterTypeList()
                        self.state = 753
                        self.match(CParser.RightParen)
                        pass

                    elif la_ == 6:
                        localctx = CParser.DirectDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directDeclarator)
                        self.state = 755
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 756
                        self.match(CParser.LeftParen)
                        self.state = 758
                        _la = self._input.LA(1)
                        if _la==CParser.Identifier:
                            self.state = 757
                            self.identifierList(0)


                        self.state = 760
                        self.match(CParser.RightParen)
                        pass


                self.state = 765
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,65,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class GccDeclaratorExtensionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def StringLiteral(self, i:int=None):
            if i is None:
                return self.getTokens(CParser.StringLiteral)
            else:
                return self.getToken(CParser.StringLiteral, i)

        def gccAttributeSpecifier(self):
            return self.getTypedRuleContext(CParser.GccAttributeSpecifierContext,0)


        def getRuleIndex(self):
            return CParser.RULE_gccDeclaratorExtension

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGccDeclaratorExtension" ):
                listener.enterGccDeclaratorExtension(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGccDeclaratorExtension" ):
                listener.exitGccDeclaratorExtension(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGccDeclaratorExtension" ):
                return visitor.visitGccDeclaratorExtension(self)
            else:
                return visitor.visitChildren(self)




    def gccDeclaratorExtension(self):

        localctx = CParser.GccDeclaratorExtensionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 98, self.RULE_gccDeclaratorExtension)
        self._la = 0 # Token type
        try:
            self.state = 775
            token = self._input.LA(1)
            if token in [CParser.T__10]:
                self.enterOuterAlt(localctx, 1)
                self.state = 766
                self.match(CParser.T__10)
                self.state = 767
                self.match(CParser.LeftParen)
                self.state = 769
                self._errHandler.sync(self)
                _la = self._input.LA(1)
                while True:
                    self.state = 768
                    self.match(CParser.StringLiteral)
                    self.state = 771
                    self._errHandler.sync(self)
                    _la = self._input.LA(1)
                    if not (_la==CParser.StringLiteral):
                        break

                self.state = 773
                self.match(CParser.RightParen)

            elif token in [CParser.T__11]:
                self.enterOuterAlt(localctx, 2)
                self.state = 774
                self.gccAttributeSpecifier()

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class GccAttributeSpecifierContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def gccAttributeList(self):
            return self.getTypedRuleContext(CParser.GccAttributeListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_gccAttributeSpecifier

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGccAttributeSpecifier" ):
                listener.enterGccAttributeSpecifier(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGccAttributeSpecifier" ):
                listener.exitGccAttributeSpecifier(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGccAttributeSpecifier" ):
                return visitor.visitGccAttributeSpecifier(self)
            else:
                return visitor.visitChildren(self)




    def gccAttributeSpecifier(self):

        localctx = CParser.GccAttributeSpecifierContext(self, self._ctx, self.state)
        self.enterRule(localctx, 100, self.RULE_gccAttributeSpecifier)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 777
            self.match(CParser.T__11)
            self.state = 778
            self.match(CParser.LeftParen)
            self.state = 779
            self.match(CParser.LeftParen)
            self.state = 780
            self.gccAttributeList()
            self.state = 781
            self.match(CParser.RightParen)
            self.state = 782
            self.match(CParser.RightParen)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class GccAttributeListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def gccAttribute(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.GccAttributeContext)
            else:
                return self.getTypedRuleContext(CParser.GccAttributeContext,i)


        def getRuleIndex(self):
            return CParser.RULE_gccAttributeList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGccAttributeList" ):
                listener.enterGccAttributeList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGccAttributeList" ):
                listener.exitGccAttributeList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGccAttributeList" ):
                return visitor.visitGccAttributeList(self)
            else:
                return visitor.visitChildren(self)




    def gccAttributeList(self):

        localctx = CParser.GccAttributeListContext(self, self._ctx, self.state)
        self.enterRule(localctx, 102, self.RULE_gccAttributeList)
        self._la = 0 # Token type
        try:
            self.state = 793
            la_ = self._interp.adaptivePredict(self._input,69,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 784
                self.gccAttribute()
                self.state = 789
                self._errHandler.sync(self)
                _la = self._input.LA(1)
                while _la==CParser.Comma:
                    self.state = 785
                    self.match(CParser.Comma)
                    self.state = 786
                    self.gccAttribute()
                    self.state = 791
                    self._errHandler.sync(self)
                    _la = self._input.LA(1)

                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)

                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class GccAttributeContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def argumentExpressionList(self):
            return self.getTypedRuleContext(CParser.ArgumentExpressionListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_gccAttribute

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterGccAttribute" ):
                listener.enterGccAttribute(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitGccAttribute" ):
                listener.exitGccAttribute(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitGccAttribute" ):
                return visitor.visitGccAttribute(self)
            else:
                return visitor.visitChildren(self)




    def gccAttribute(self):

        localctx = CParser.GccAttributeContext(self, self._ctx, self.state)
        self.enterRule(localctx, 104, self.RULE_gccAttribute)
        self._la = 0 # Token type
        try:
            self.state = 804
            token = self._input.LA(1)
            if token in [CParser.T__0, CParser.T__1, CParser.T__2, CParser.T__3, CParser.T__4, CParser.T__5, CParser.T__6, CParser.T__7, CParser.T__8, CParser.T__9, CParser.T__10, CParser.T__11, CParser.T__12, CParser.T__13, CParser.Auto, CParser.Break, CParser.Case, CParser.Char, CParser.Const, CParser.Continue, CParser.Default, CParser.Do, CParser.Double, CParser.Else, CParser.Enum, CParser.Extern, CParser.Float, CParser.For, CParser.Goto, CParser.If, CParser.Inline, CParser.Int, CParser.Long, CParser.Register, CParser.Restrict, CParser.Return, CParser.Short, CParser.Signed, CParser.Sizeof, CParser.Static, CParser.Struct, CParser.Switch, CParser.Typedef, CParser.Union, CParser.Unsigned, CParser.Void, CParser.Volatile, CParser.While, CParser.Alignas, CParser.Alignof, CParser.Atomic, CParser.Bool, CParser.Complex, CParser.Generic, CParser.Imaginary, CParser.Noreturn, CParser.StaticAssert, CParser.ThreadLocal, CParser.LeftBracket, CParser.RightBracket, CParser.LeftBrace, CParser.RightBrace, CParser.Less, CParser.LessEqual, CParser.Greater, CParser.GreaterEqual, CParser.LeftShift, CParser.RightShift, CParser.Plus, CParser.PlusPlus, CParser.Minus, CParser.MinusMinus, CParser.Star, CParser.Div, CParser.Mod, CParser.And, CParser.Or, CParser.AndAnd, CParser.OrOr, CParser.Caret, CParser.Not, CParser.Tilde, CParser.Question, CParser.Colon, CParser.Semi, CParser.Assign, CParser.StarAssign, CParser.DivAssign, CParser.ModAssign, CParser.PlusAssign, CParser.MinusAssign, CParser.LeftShiftAssign, CParser.RightShiftAssign, CParser.AndAssign, CParser.XorAssign, CParser.OrAssign, CParser.Equal, CParser.NotEqual, CParser.Arrow, CParser.Dot, CParser.Ellipsis, CParser.Identifier, CParser.Constant, CParser.StringLiteral, CParser.LineDirective, CParser.PragmaDirective, CParser.Whitespace, CParser.Newline, CParser.BlockComment, CParser.LineComment]:
                self.enterOuterAlt(localctx, 1)
                self.state = 795
                _la = self._input.LA(1)
                if _la <= 0 or ((((_la - 59)) & ~0x3f) == 0 and ((1 << (_la - 59)) & ((1 << (CParser.LeftParen - 59)) | (1 << (CParser.RightParen - 59)) | (1 << (CParser.Comma - 59)))) != 0):
                    self._errHandler.recoverInline(self)
                else:
                    self.consume()
                self.state = 801
                _la = self._input.LA(1)
                if _la==CParser.LeftParen:
                    self.state = 796
                    self.match(CParser.LeftParen)
                    self.state = 798
                    _la = self._input.LA(1)
                    if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                        self.state = 797
                        self.argumentExpressionList(0)


                    self.state = 800
                    self.match(CParser.RightParen)



            elif token in [CParser.RightParen, CParser.Comma]:
                self.enterOuterAlt(localctx, 2)


            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class NestedParenthesesBlockContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def nestedParenthesesBlock(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.NestedParenthesesBlockContext)
            else:
                return self.getTypedRuleContext(CParser.NestedParenthesesBlockContext,i)


        def getRuleIndex(self):
            return CParser.RULE_nestedParenthesesBlock

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterNestedParenthesesBlock" ):
                listener.enterNestedParenthesesBlock(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitNestedParenthesesBlock" ):
                listener.exitNestedParenthesesBlock(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitNestedParenthesesBlock" ):
                return visitor.visitNestedParenthesesBlock(self)
            else:
                return visitor.visitChildren(self)




    def nestedParenthesesBlock(self):

        localctx = CParser.NestedParenthesesBlockContext(self, self._ctx, self.state)
        self.enterRule(localctx, 106, self.RULE_nestedParenthesesBlock)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 813
            self._errHandler.sync(self)
            _la = self._input.LA(1)
            while (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.T__6) | (1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.T__9) | (1 << CParser.T__10) | (1 << CParser.T__11) | (1 << CParser.T__12) | (1 << CParser.T__13) | (1 << CParser.Auto) | (1 << CParser.Break) | (1 << CParser.Case) | (1 << CParser.Char) | (1 << CParser.Const) | (1 << CParser.Continue) | (1 << CParser.Default) | (1 << CParser.Do) | (1 << CParser.Double) | (1 << CParser.Else) | (1 << CParser.Enum) | (1 << CParser.Extern) | (1 << CParser.Float) | (1 << CParser.For) | (1 << CParser.Goto) | (1 << CParser.If) | (1 << CParser.Inline) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Register) | (1 << CParser.Restrict) | (1 << CParser.Return) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Sizeof) | (1 << CParser.Static) | (1 << CParser.Struct) | (1 << CParser.Switch) | (1 << CParser.Typedef) | (1 << CParser.Union) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Volatile) | (1 << CParser.While) | (1 << CParser.Alignas) | (1 << CParser.Alignof) | (1 << CParser.Atomic) | (1 << CParser.Bool) | (1 << CParser.Complex) | (1 << CParser.Generic) | (1 << CParser.Imaginary) | (1 << CParser.Noreturn) | (1 << CParser.StaticAssert) | (1 << CParser.ThreadLocal) | (1 << CParser.LeftParen) | (1 << CParser.LeftBracket) | (1 << CParser.RightBracket) | (1 << CParser.LeftBrace))) != 0) or ((((_la - 64)) & ~0x3f) == 0 and ((1 << (_la - 64)) & ((1 << (CParser.RightBrace - 64)) | (1 << (CParser.Less - 64)) | (1 << (CParser.LessEqual - 64)) | (1 << (CParser.Greater - 64)) | (1 << (CParser.GreaterEqual - 64)) | (1 << (CParser.LeftShift - 64)) | (1 << (CParser.RightShift - 64)) | (1 << (CParser.Plus - 64)) | (1 << (CParser.PlusPlus - 64)) | (1 << (CParser.Minus - 64)) | (1 << (CParser.MinusMinus - 64)) | (1 << (CParser.Star - 64)) | (1 << (CParser.Div - 64)) | (1 << (CParser.Mod - 64)) | (1 << (CParser.And - 64)) | (1 << (CParser.Or - 64)) | (1 << (CParser.AndAnd - 64)) | (1 << (CParser.OrOr - 64)) | (1 << (CParser.Caret - 64)) | (1 << (CParser.Not - 64)) | (1 << (CParser.Tilde - 64)) | (1 << (CParser.Question - 64)) | (1 << (CParser.Colon - 64)) | (1 << (CParser.Semi - 64)) | (1 << (CParser.Comma - 64)) | (1 << (CParser.Assign - 64)) | (1 << (CParser.StarAssign - 64)) | (1 << (CParser.DivAssign - 64)) | (1 << (CParser.ModAssign - 64)) | (1 << (CParser.PlusAssign - 64)) | (1 << (CParser.MinusAssign - 64)) | (1 << (CParser.LeftShiftAssign - 64)) | (1 << (CParser.RightShiftAssign - 64)) | (1 << (CParser.AndAssign - 64)) | (1 << (CParser.XorAssign - 64)) | (1 << (CParser.OrAssign - 64)) | (1 << (CParser.Equal - 64)) | (1 << (CParser.NotEqual - 64)) | (1 << (CParser.Arrow - 64)) | (1 << (CParser.Dot - 64)) | (1 << (CParser.Ellipsis - 64)) | (1 << (CParser.Identifier - 64)) | (1 << (CParser.Constant - 64)) | (1 << (CParser.StringLiteral - 64)) | (1 << (CParser.LineDirective - 64)) | (1 << (CParser.PragmaDirective - 64)) | (1 << (CParser.Whitespace - 64)) | (1 << (CParser.Newline - 64)) | (1 << (CParser.BlockComment - 64)) | (1 << (CParser.LineComment - 64)))) != 0):
                self.state = 811
                token = self._input.LA(1)
                if token in [CParser.T__0, CParser.T__1, CParser.T__2, CParser.T__3, CParser.T__4, CParser.T__5, CParser.T__6, CParser.T__7, CParser.T__8, CParser.T__9, CParser.T__10, CParser.T__11, CParser.T__12, CParser.T__13, CParser.Auto, CParser.Break, CParser.Case, CParser.Char, CParser.Const, CParser.Continue, CParser.Default, CParser.Do, CParser.Double, CParser.Else, CParser.Enum, CParser.Extern, CParser.Float, CParser.For, CParser.Goto, CParser.If, CParser.Inline, CParser.Int, CParser.Long, CParser.Register, CParser.Restrict, CParser.Return, CParser.Short, CParser.Signed, CParser.Sizeof, CParser.Static, CParser.Struct, CParser.Switch, CParser.Typedef, CParser.Union, CParser.Unsigned, CParser.Void, CParser.Volatile, CParser.While, CParser.Alignas, CParser.Alignof, CParser.Atomic, CParser.Bool, CParser.Complex, CParser.Generic, CParser.Imaginary, CParser.Noreturn, CParser.StaticAssert, CParser.ThreadLocal, CParser.LeftBracket, CParser.RightBracket, CParser.LeftBrace, CParser.RightBrace, CParser.Less, CParser.LessEqual, CParser.Greater, CParser.GreaterEqual, CParser.LeftShift, CParser.RightShift, CParser.Plus, CParser.PlusPlus, CParser.Minus, CParser.MinusMinus, CParser.Star, CParser.Div, CParser.Mod, CParser.And, CParser.Or, CParser.AndAnd, CParser.OrOr, CParser.Caret, CParser.Not, CParser.Tilde, CParser.Question, CParser.Colon, CParser.Semi, CParser.Comma, CParser.Assign, CParser.StarAssign, CParser.DivAssign, CParser.ModAssign, CParser.PlusAssign, CParser.MinusAssign, CParser.LeftShiftAssign, CParser.RightShiftAssign, CParser.AndAssign, CParser.XorAssign, CParser.OrAssign, CParser.Equal, CParser.NotEqual, CParser.Arrow, CParser.Dot, CParser.Ellipsis, CParser.Identifier, CParser.Constant, CParser.StringLiteral, CParser.LineDirective, CParser.PragmaDirective, CParser.Whitespace, CParser.Newline, CParser.BlockComment, CParser.LineComment]:
                    self.state = 806
                    _la = self._input.LA(1)
                    if _la <= 0 or _la==CParser.LeftParen or _la==CParser.RightParen:
                        self._errHandler.recoverInline(self)
                    else:
                        self.consume()

                elif token in [CParser.LeftParen]:
                    self.state = 807
                    self.match(CParser.LeftParen)
                    self.state = 808
                    self.nestedParenthesesBlock()
                    self.state = 809
                    self.match(CParser.RightParen)

                else:
                    raise NoViableAltException(self)

                self.state = 815
                self._errHandler.sync(self)
                _la = self._input.LA(1)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class PointerContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def typeQualifierList(self):
            return self.getTypedRuleContext(CParser.TypeQualifierListContext,0)


        def pointer(self):
            return self.getTypedRuleContext(CParser.PointerContext,0)


        def getRuleIndex(self):
            return CParser.RULE_pointer

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterPointer" ):
                listener.enterPointer(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitPointer" ):
                listener.exitPointer(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitPointer" ):
                return visitor.visitPointer(self)
            else:
                return visitor.visitChildren(self)




    def pointer(self):

        localctx = CParser.PointerContext(self, self._ctx, self.state)
        self.enterRule(localctx, 108, self.RULE_pointer)
        self._la = 0 # Token type
        try:
            self.state = 834
            la_ = self._interp.adaptivePredict(self._input,79,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 816
                self.match(CParser.Star)
                self.state = 818
                la_ = self._interp.adaptivePredict(self._input,75,self._ctx)
                if la_ == 1:
                    self.state = 817
                    self.typeQualifierList(0)


                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 820
                self.match(CParser.Star)
                self.state = 822
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                    self.state = 821
                    self.typeQualifierList(0)


                self.state = 824
                self.pointer()
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 825
                self.match(CParser.Caret)
                self.state = 827
                la_ = self._interp.adaptivePredict(self._input,77,self._ctx)
                if la_ == 1:
                    self.state = 826
                    self.typeQualifierList(0)


                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 829
                self.match(CParser.Caret)
                self.state = 831
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                    self.state = 830
                    self.typeQualifierList(0)


                self.state = 833
                self.pointer()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class TypeQualifierListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def typeQualifier(self):
            return self.getTypedRuleContext(CParser.TypeQualifierContext,0)


        def typeQualifierList(self):
            return self.getTypedRuleContext(CParser.TypeQualifierListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_typeQualifierList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterTypeQualifierList" ):
                listener.enterTypeQualifierList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitTypeQualifierList" ):
                listener.exitTypeQualifierList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitTypeQualifierList" ):
                return visitor.visitTypeQualifierList(self)
            else:
                return visitor.visitChildren(self)



    def typeQualifierList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.TypeQualifierListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 110
        self.enterRecursionRule(localctx, 110, self.RULE_typeQualifierList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 837
            self.typeQualifier()
            self._ctx.stop = self._input.LT(-1)
            self.state = 843
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,80,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.TypeQualifierListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_typeQualifierList)
                    self.state = 839
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 840
                    self.typeQualifier()
                self.state = 845
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,80,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ParameterTypeListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def parameterList(self):
            return self.getTypedRuleContext(CParser.ParameterListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_parameterTypeList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterParameterTypeList" ):
                listener.enterParameterTypeList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitParameterTypeList" ):
                listener.exitParameterTypeList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitParameterTypeList" ):
                return visitor.visitParameterTypeList(self)
            else:
                return visitor.visitChildren(self)




    def parameterTypeList(self):

        localctx = CParser.ParameterTypeListContext(self, self._ctx, self.state)
        self.enterRule(localctx, 112, self.RULE_parameterTypeList)
        try:
            self.state = 851
            la_ = self._interp.adaptivePredict(self._input,81,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 846
                self.parameterList(0)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 847
                self.parameterList(0)
                self.state = 848
                self.match(CParser.Comma)
                self.state = 849
                self.match(CParser.Ellipsis)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class ParameterListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def parameterDeclaration(self):
            return self.getTypedRuleContext(CParser.ParameterDeclarationContext,0)


        def parameterList(self):
            return self.getTypedRuleContext(CParser.ParameterListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_parameterList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterParameterList" ):
                listener.enterParameterList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitParameterList" ):
                listener.exitParameterList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitParameterList" ):
                return visitor.visitParameterList(self)
            else:
                return visitor.visitChildren(self)



    def parameterList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.ParameterListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 114
        self.enterRecursionRule(localctx, 114, self.RULE_parameterList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 854
            self.parameterDeclaration()
            self._ctx.stop = self._input.LT(-1)
            self.state = 861
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,82,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.ParameterListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_parameterList)
                    self.state = 856
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 857
                    self.match(CParser.Comma)
                    self.state = 858
                    self.parameterDeclaration()
                self.state = 863
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,82,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ParameterDeclarationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarationSpecifiers(self):
            return self.getTypedRuleContext(CParser.DeclarationSpecifiersContext,0)


        def declarator(self):
            return self.getTypedRuleContext(CParser.DeclaratorContext,0)


        def declarationSpecifiers2(self):
            return self.getTypedRuleContext(CParser.DeclarationSpecifiers2Context,0)


        def abstractDeclarator(self):
            return self.getTypedRuleContext(CParser.AbstractDeclaratorContext,0)


        def getRuleIndex(self):
            return CParser.RULE_parameterDeclaration

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterParameterDeclaration" ):
                listener.enterParameterDeclaration(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitParameterDeclaration" ):
                listener.exitParameterDeclaration(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitParameterDeclaration" ):
                return visitor.visitParameterDeclaration(self)
            else:
                return visitor.visitChildren(self)




    def parameterDeclaration(self):

        localctx = CParser.ParameterDeclarationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 116, self.RULE_parameterDeclaration)
        try:
            self.state = 871
            la_ = self._interp.adaptivePredict(self._input,84,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 864
                self.declarationSpecifiers()
                self.state = 865
                self.declarator()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 867
                self.declarationSpecifiers2()
                self.state = 869
                la_ = self._interp.adaptivePredict(self._input,83,self._ctx)
                if la_ == 1:
                    self.state = 868
                    self.abstractDeclarator()


                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class IdentifierListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def identifierList(self):
            return self.getTypedRuleContext(CParser.IdentifierListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_identifierList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterIdentifierList" ):
                listener.enterIdentifierList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitIdentifierList" ):
                listener.exitIdentifierList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitIdentifierList" ):
                return visitor.visitIdentifierList(self)
            else:
                return visitor.visitChildren(self)



    def identifierList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.IdentifierListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 118
        self.enterRecursionRule(localctx, 118, self.RULE_identifierList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 874
            self.match(CParser.Identifier)
            self._ctx.stop = self._input.LT(-1)
            self.state = 881
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,85,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.IdentifierListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_identifierList)
                    self.state = 876
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 877
                    self.match(CParser.Comma)
                    self.state = 878
                    self.match(CParser.Identifier)
                self.state = 883
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,85,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class TypeNameContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def specifierQualifierList(self):
            return self.getTypedRuleContext(CParser.SpecifierQualifierListContext,0)


        def abstractDeclarator(self):
            return self.getTypedRuleContext(CParser.AbstractDeclaratorContext,0)


        def getRuleIndex(self):
            return CParser.RULE_typeName

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterTypeName" ):
                listener.enterTypeName(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitTypeName" ):
                listener.exitTypeName(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitTypeName" ):
                return visitor.visitTypeName(self)
            else:
                return visitor.visitChildren(self)




    def typeName(self):

        localctx = CParser.TypeNameContext(self, self._ctx, self.state)
        self.enterRule(localctx, 120, self.RULE_typeName)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 884
            self.specifierQualifierList()
            self.state = 886
            _la = self._input.LA(1)
            if ((((_la - 59)) & ~0x3f) == 0 and ((1 << (_la - 59)) & ((1 << (CParser.LeftParen - 59)) | (1 << (CParser.LeftBracket - 59)) | (1 << (CParser.Star - 59)) | (1 << (CParser.Caret - 59)))) != 0):
                self.state = 885
                self.abstractDeclarator()


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class AbstractDeclaratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def pointer(self):
            return self.getTypedRuleContext(CParser.PointerContext,0)


        def directAbstractDeclarator(self):
            return self.getTypedRuleContext(CParser.DirectAbstractDeclaratorContext,0)


        def gccDeclaratorExtension(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.GccDeclaratorExtensionContext)
            else:
                return self.getTypedRuleContext(CParser.GccDeclaratorExtensionContext,i)


        def getRuleIndex(self):
            return CParser.RULE_abstractDeclarator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterAbstractDeclarator" ):
                listener.enterAbstractDeclarator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitAbstractDeclarator" ):
                listener.exitAbstractDeclarator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitAbstractDeclarator" ):
                return visitor.visitAbstractDeclarator(self)
            else:
                return visitor.visitChildren(self)




    def abstractDeclarator(self):

        localctx = CParser.AbstractDeclaratorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 122, self.RULE_abstractDeclarator)
        self._la = 0 # Token type
        try:
            self.state = 899
            la_ = self._interp.adaptivePredict(self._input,89,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 888
                self.pointer()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 890
                _la = self._input.LA(1)
                if _la==CParser.Star or _la==CParser.Caret:
                    self.state = 889
                    self.pointer()


                self.state = 892
                self.directAbstractDeclarator(0)
                self.state = 896
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,88,self._ctx)
                while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                    if _alt==1:
                        self.state = 893
                        self.gccDeclaratorExtension()
                    self.state = 898
                    self._errHandler.sync(self)
                    _alt = self._interp.adaptivePredict(self._input,88,self._ctx)

                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DirectAbstractDeclaratorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def abstractDeclarator(self):
            return self.getTypedRuleContext(CParser.AbstractDeclaratorContext,0)


        def gccDeclaratorExtension(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.GccDeclaratorExtensionContext)
            else:
                return self.getTypedRuleContext(CParser.GccDeclaratorExtensionContext,i)


        def typeQualifierList(self):
            return self.getTypedRuleContext(CParser.TypeQualifierListContext,0)


        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def parameterTypeList(self):
            return self.getTypedRuleContext(CParser.ParameterTypeListContext,0)


        def directAbstractDeclarator(self):
            return self.getTypedRuleContext(CParser.DirectAbstractDeclaratorContext,0)


        def getRuleIndex(self):
            return CParser.RULE_directAbstractDeclarator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDirectAbstractDeclarator" ):
                listener.enterDirectAbstractDeclarator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDirectAbstractDeclarator" ):
                listener.exitDirectAbstractDeclarator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDirectAbstractDeclarator" ):
                return visitor.visitDirectAbstractDeclarator(self)
            else:
                return visitor.visitChildren(self)



    def directAbstractDeclarator(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.DirectAbstractDeclaratorContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 124
        self.enterRecursionRule(localctx, 124, self.RULE_directAbstractDeclarator, _p)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 947
            la_ = self._interp.adaptivePredict(self._input,96,self._ctx)
            if la_ == 1:
                self.state = 902
                self.match(CParser.LeftParen)
                self.state = 903
                self.abstractDeclarator()
                self.state = 904
                self.match(CParser.RightParen)
                self.state = 908
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,90,self._ctx)
                while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                    if _alt==1:
                        self.state = 905
                        self.gccDeclaratorExtension()
                    self.state = 910
                    self._errHandler.sync(self)
                    _alt = self._interp.adaptivePredict(self._input,90,self._ctx)

                pass

            elif la_ == 2:
                self.state = 911
                self.match(CParser.LeftBracket)
                self.state = 913
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                    self.state = 912
                    self.typeQualifierList(0)


                self.state = 916
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 915
                    self.assignmentExpression()


                self.state = 918
                self.match(CParser.RightBracket)
                pass

            elif la_ == 3:
                self.state = 919
                self.match(CParser.LeftBracket)
                self.state = 920
                self.match(CParser.Static)
                self.state = 922
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                    self.state = 921
                    self.typeQualifierList(0)


                self.state = 924
                self.assignmentExpression()
                self.state = 925
                self.match(CParser.RightBracket)
                pass

            elif la_ == 4:
                self.state = 927
                self.match(CParser.LeftBracket)
                self.state = 928
                self.typeQualifierList(0)
                self.state = 929
                self.match(CParser.Static)
                self.state = 930
                self.assignmentExpression()
                self.state = 931
                self.match(CParser.RightBracket)
                pass

            elif la_ == 5:
                self.state = 933
                self.match(CParser.LeftBracket)
                self.state = 934
                self.match(CParser.Star)
                self.state = 935
                self.match(CParser.RightBracket)
                pass

            elif la_ == 6:
                self.state = 936
                self.match(CParser.LeftParen)
                self.state = 938
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.T__6) | (1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.T__9) | (1 << CParser.T__11) | (1 << CParser.Auto) | (1 << CParser.Char) | (1 << CParser.Const) | (1 << CParser.Double) | (1 << CParser.Enum) | (1 << CParser.Extern) | (1 << CParser.Float) | (1 << CParser.Inline) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Register) | (1 << CParser.Restrict) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Static) | (1 << CParser.Struct) | (1 << CParser.Typedef) | (1 << CParser.Union) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Volatile) | (1 << CParser.Alignas) | (1 << CParser.Atomic) | (1 << CParser.Bool) | (1 << CParser.Complex) | (1 << CParser.Noreturn) | (1 << CParser.ThreadLocal))) != 0) or _la==CParser.Identifier:
                    self.state = 937
                    self.parameterTypeList()


                self.state = 940
                self.match(CParser.RightParen)
                self.state = 944
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,95,self._ctx)
                while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                    if _alt==1:
                        self.state = 941
                        self.gccDeclaratorExtension()
                    self.state = 946
                    self._errHandler.sync(self)
                    _alt = self._interp.adaptivePredict(self._input,95,self._ctx)

                pass


            self._ctx.stop = self._input.LT(-1)
            self.state = 992
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,103,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    self.state = 990
                    la_ = self._interp.adaptivePredict(self._input,102,self._ctx)
                    if la_ == 1:
                        localctx = CParser.DirectAbstractDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directAbstractDeclarator)
                        self.state = 949
                        if not self.precpred(self._ctx, 5):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 5)")
                        self.state = 950
                        self.match(CParser.LeftBracket)
                        self.state = 952
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                            self.state = 951
                            self.typeQualifierList(0)


                        self.state = 955
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                            self.state = 954
                            self.assignmentExpression()


                        self.state = 957
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 2:
                        localctx = CParser.DirectAbstractDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directAbstractDeclarator)
                        self.state = 958
                        if not self.precpred(self._ctx, 4):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 4)")
                        self.state = 959
                        self.match(CParser.LeftBracket)
                        self.state = 960
                        self.match(CParser.Static)
                        self.state = 962
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.Const) | (1 << CParser.Restrict) | (1 << CParser.Volatile) | (1 << CParser.Atomic))) != 0):
                            self.state = 961
                            self.typeQualifierList(0)


                        self.state = 964
                        self.assignmentExpression()
                        self.state = 965
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 3:
                        localctx = CParser.DirectAbstractDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directAbstractDeclarator)
                        self.state = 967
                        if not self.precpred(self._ctx, 3):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 3)")
                        self.state = 968
                        self.match(CParser.LeftBracket)
                        self.state = 969
                        self.typeQualifierList(0)
                        self.state = 970
                        self.match(CParser.Static)
                        self.state = 971
                        self.assignmentExpression()
                        self.state = 972
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 4:
                        localctx = CParser.DirectAbstractDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directAbstractDeclarator)
                        self.state = 974
                        if not self.precpred(self._ctx, 2):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
                        self.state = 975
                        self.match(CParser.LeftBracket)
                        self.state = 976
                        self.match(CParser.Star)
                        self.state = 977
                        self.match(CParser.RightBracket)
                        pass

                    elif la_ == 5:
                        localctx = CParser.DirectAbstractDeclaratorContext(self, _parentctx, _parentState)
                        self.pushNewRecursionContext(localctx, _startState, self.RULE_directAbstractDeclarator)
                        self.state = 978
                        if not self.precpred(self._ctx, 1):
                            from antlr4.error.Errors import FailedPredicateException
                            raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                        self.state = 979
                        self.match(CParser.LeftParen)
                        self.state = 981
                        _la = self._input.LA(1)
                        if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.T__6) | (1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.T__9) | (1 << CParser.T__11) | (1 << CParser.Auto) | (1 << CParser.Char) | (1 << CParser.Const) | (1 << CParser.Double) | (1 << CParser.Enum) | (1 << CParser.Extern) | (1 << CParser.Float) | (1 << CParser.Inline) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Register) | (1 << CParser.Restrict) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Static) | (1 << CParser.Struct) | (1 << CParser.Typedef) | (1 << CParser.Union) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Volatile) | (1 << CParser.Alignas) | (1 << CParser.Atomic) | (1 << CParser.Bool) | (1 << CParser.Complex) | (1 << CParser.Noreturn) | (1 << CParser.ThreadLocal))) != 0) or _la==CParser.Identifier:
                            self.state = 980
                            self.parameterTypeList()


                        self.state = 983
                        self.match(CParser.RightParen)
                        self.state = 987
                        self._errHandler.sync(self)
                        _alt = self._interp.adaptivePredict(self._input,101,self._ctx)
                        while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                            if _alt==1:
                                self.state = 984
                                self.gccDeclaratorExtension()
                            self.state = 989
                            self._errHandler.sync(self)
                            _alt = self._interp.adaptivePredict(self._input,101,self._ctx)

                        pass


                self.state = 994
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,103,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class TypedefNameContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_typedefName

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterTypedefName" ):
                listener.enterTypedefName(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitTypedefName" ):
                listener.exitTypedefName(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitTypedefName" ):
                return visitor.visitTypedefName(self)
            else:
                return visitor.visitChildren(self)




    def typedefName(self):

        localctx = CParser.TypedefNameContext(self, self._ctx, self.state)
        self.enterRule(localctx, 126, self.RULE_typedefName)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 995
            self.match(CParser.Identifier)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class InitializerContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def assignmentExpression(self):
            return self.getTypedRuleContext(CParser.AssignmentExpressionContext,0)


        def initializerList(self):
            return self.getTypedRuleContext(CParser.InitializerListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_initializer

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterInitializer" ):
                listener.enterInitializer(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitInitializer" ):
                listener.exitInitializer(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitInitializer" ):
                return visitor.visitInitializer(self)
            else:
                return visitor.visitChildren(self)




    def initializer(self):

        localctx = CParser.InitializerContext(self, self._ctx, self.state)
        self.enterRule(localctx, 128, self.RULE_initializer)
        try:
            self.state = 1007
            la_ = self._interp.adaptivePredict(self._input,104,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 997
                self.assignmentExpression()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 998
                self.match(CParser.LeftBrace)
                self.state = 999
                self.initializerList(0)
                self.state = 1000
                self.match(CParser.RightBrace)
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 1002
                self.match(CParser.LeftBrace)
                self.state = 1003
                self.initializerList(0)
                self.state = 1004
                self.match(CParser.Comma)
                self.state = 1005
                self.match(CParser.RightBrace)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class InitializerListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def initializer(self):
            return self.getTypedRuleContext(CParser.InitializerContext,0)


        def designation(self):
            return self.getTypedRuleContext(CParser.DesignationContext,0)


        def initializerList(self):
            return self.getTypedRuleContext(CParser.InitializerListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_initializerList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterInitializerList" ):
                listener.enterInitializerList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitInitializerList" ):
                listener.exitInitializerList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitInitializerList" ):
                return visitor.visitInitializerList(self)
            else:
                return visitor.visitChildren(self)



    def initializerList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.InitializerListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 130
        self.enterRecursionRule(localctx, 130, self.RULE_initializerList, _p)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1011
            _la = self._input.LA(1)
            if _la==CParser.LeftBracket or _la==CParser.Dot:
                self.state = 1010
                self.designation()


            self.state = 1013
            self.initializer()
            self._ctx.stop = self._input.LT(-1)
            self.state = 1023
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,107,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.InitializerListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_initializerList)
                    self.state = 1015
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 1016
                    self.match(CParser.Comma)
                    self.state = 1018
                    _la = self._input.LA(1)
                    if _la==CParser.LeftBracket or _la==CParser.Dot:
                        self.state = 1017
                        self.designation()


                    self.state = 1020
                    self.initializer()
                self.state = 1025
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,107,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class DesignationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def designatorList(self):
            return self.getTypedRuleContext(CParser.DesignatorListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_designation

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDesignation" ):
                listener.enterDesignation(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDesignation" ):
                listener.exitDesignation(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDesignation" ):
                return visitor.visitDesignation(self)
            else:
                return visitor.visitChildren(self)




    def designation(self):

        localctx = CParser.DesignationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 132, self.RULE_designation)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1026
            self.designatorList(0)
            self.state = 1027
            self.match(CParser.Assign)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DesignatorListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def designator(self):
            return self.getTypedRuleContext(CParser.DesignatorContext,0)


        def designatorList(self):
            return self.getTypedRuleContext(CParser.DesignatorListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_designatorList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDesignatorList" ):
                listener.enterDesignatorList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDesignatorList" ):
                listener.exitDesignatorList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDesignatorList" ):
                return visitor.visitDesignatorList(self)
            else:
                return visitor.visitChildren(self)



    def designatorList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.DesignatorListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 134
        self.enterRecursionRule(localctx, 134, self.RULE_designatorList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1030
            self.designator()
            self._ctx.stop = self._input.LT(-1)
            self.state = 1036
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,108,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.DesignatorListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_designatorList)
                    self.state = 1032
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 1033
                    self.designator()
                self.state = 1038
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,108,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class DesignatorContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def getRuleIndex(self):
            return CParser.RULE_designator

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDesignator" ):
                listener.enterDesignator(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDesignator" ):
                listener.exitDesignator(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDesignator" ):
                return visitor.visitDesignator(self)
            else:
                return visitor.visitChildren(self)




    def designator(self):

        localctx = CParser.DesignatorContext(self, self._ctx, self.state)
        self.enterRule(localctx, 136, self.RULE_designator)
        try:
            self.state = 1045
            token = self._input.LA(1)
            if token in [CParser.LeftBracket]:
                self.enterOuterAlt(localctx, 1)
                self.state = 1039
                self.match(CParser.LeftBracket)
                self.state = 1040
                self.constantExpression()
                self.state = 1041
                self.match(CParser.RightBracket)

            elif token in [CParser.Dot]:
                self.enterOuterAlt(localctx, 2)
                self.state = 1043
                self.match(CParser.Dot)
                self.state = 1044
                self.match(CParser.Identifier)

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StaticAssertDeclarationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def StringLiteral(self, i:int=None):
            if i is None:
                return self.getTokens(CParser.StringLiteral)
            else:
                return self.getToken(CParser.StringLiteral, i)

        def getRuleIndex(self):
            return CParser.RULE_staticAssertDeclaration

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStaticAssertDeclaration" ):
                listener.enterStaticAssertDeclaration(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStaticAssertDeclaration" ):
                listener.exitStaticAssertDeclaration(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStaticAssertDeclaration" ):
                return visitor.visitStaticAssertDeclaration(self)
            else:
                return visitor.visitChildren(self)




    def staticAssertDeclaration(self):

        localctx = CParser.StaticAssertDeclarationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 138, self.RULE_staticAssertDeclaration)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1047
            self.match(CParser.StaticAssert)
            self.state = 1048
            self.match(CParser.LeftParen)
            self.state = 1049
            self.constantExpression()
            self.state = 1050
            self.match(CParser.Comma)
            self.state = 1052
            self._errHandler.sync(self)
            _la = self._input.LA(1)
            while True:
                self.state = 1051
                self.match(CParser.StringLiteral)
                self.state = 1054
                self._errHandler.sync(self)
                _la = self._input.LA(1)
                if not (_la==CParser.StringLiteral):
                    break

            self.state = 1056
            self.match(CParser.RightParen)
            self.state = 1057
            self.match(CParser.Semi)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class StatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def labeledStatement(self):
            return self.getTypedRuleContext(CParser.LabeledStatementContext,0)


        def compoundStatement(self):
            return self.getTypedRuleContext(CParser.CompoundStatementContext,0)


        def expressionStatement(self):
            return self.getTypedRuleContext(CParser.ExpressionStatementContext,0)


        def selectionStatement(self):
            return self.getTypedRuleContext(CParser.SelectionStatementContext,0)


        def iterationStatement(self):
            return self.getTypedRuleContext(CParser.IterationStatementContext,0)


        def jumpStatement(self):
            return self.getTypedRuleContext(CParser.JumpStatementContext,0)


        def logicalOrExpression(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.LogicalOrExpressionContext)
            else:
                return self.getTypedRuleContext(CParser.LogicalOrExpressionContext,i)


        def getRuleIndex(self):
            return CParser.RULE_statement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterStatement" ):
                listener.enterStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitStatement" ):
                listener.exitStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitStatement" ):
                return visitor.visitStatement(self)
            else:
                return visitor.visitChildren(self)




    def statement(self):

        localctx = CParser.StatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 140, self.RULE_statement)
        self._la = 0 # Token type
        try:
            self.state = 1096
            la_ = self._interp.adaptivePredict(self._input,116,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 1059
                self.labeledStatement()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 1060
                self.compoundStatement()
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 1061
                self.expressionStatement()
                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 1062
                self.selectionStatement()
                pass

            elif la_ == 5:
                self.enterOuterAlt(localctx, 5)
                self.state = 1063
                self.iterationStatement()
                pass

            elif la_ == 6:
                self.enterOuterAlt(localctx, 6)
                self.state = 1064
                self.jumpStatement()
                pass

            elif la_ == 7:
                self.enterOuterAlt(localctx, 7)
                self.state = 1065
                _la = self._input.LA(1)
                if not(_la==CParser.T__10 or _la==CParser.T__12):
                    self._errHandler.recoverInline(self)
                else:
                    self.consume()
                self.state = 1066
                _la = self._input.LA(1)
                if not(_la==CParser.T__13 or _la==CParser.Volatile):
                    self._errHandler.recoverInline(self)
                else:
                    self.consume()
                self.state = 1067
                self.match(CParser.LeftParen)
                self.state = 1076
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1068
                    self.logicalOrExpression(0)
                    self.state = 1073
                    self._errHandler.sync(self)
                    _la = self._input.LA(1)
                    while _la==CParser.Comma:
                        self.state = 1069
                        self.match(CParser.Comma)
                        self.state = 1070
                        self.logicalOrExpression(0)
                        self.state = 1075
                        self._errHandler.sync(self)
                        _la = self._input.LA(1)



                self.state = 1091
                self._errHandler.sync(self)
                _la = self._input.LA(1)
                while _la==CParser.Colon:
                    self.state = 1078
                    self.match(CParser.Colon)
                    self.state = 1087
                    _la = self._input.LA(1)
                    if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                        self.state = 1079
                        self.logicalOrExpression(0)
                        self.state = 1084
                        self._errHandler.sync(self)
                        _la = self._input.LA(1)
                        while _la==CParser.Comma:
                            self.state = 1080
                            self.match(CParser.Comma)
                            self.state = 1081
                            self.logicalOrExpression(0)
                            self.state = 1086
                            self._errHandler.sync(self)
                            _la = self._input.LA(1)



                    self.state = 1093
                    self._errHandler.sync(self)
                    _la = self._input.LA(1)

                self.state = 1094
                self.match(CParser.RightParen)
                self.state = 1095
                self.match(CParser.Semi)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class LabeledStatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def statement(self):
            return self.getTypedRuleContext(CParser.StatementContext,0)


        def constantExpression(self):
            return self.getTypedRuleContext(CParser.ConstantExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_labeledStatement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterLabeledStatement" ):
                listener.enterLabeledStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitLabeledStatement" ):
                listener.exitLabeledStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitLabeledStatement" ):
                return visitor.visitLabeledStatement(self)
            else:
                return visitor.visitChildren(self)




    def labeledStatement(self):

        localctx = CParser.LabeledStatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 142, self.RULE_labeledStatement)
        try:
            self.state = 1109
            token = self._input.LA(1)
            if token in [CParser.Identifier]:
                self.enterOuterAlt(localctx, 1)
                self.state = 1098
                self.match(CParser.Identifier)
                self.state = 1099
                self.match(CParser.Colon)
                self.state = 1100
                self.statement()

            elif token in [CParser.Case]:
                self.enterOuterAlt(localctx, 2)
                self.state = 1101
                self.match(CParser.Case)
                self.state = 1102
                self.constantExpression()
                self.state = 1103
                self.match(CParser.Colon)
                self.state = 1104
                self.statement()

            elif token in [CParser.Default]:
                self.enterOuterAlt(localctx, 3)
                self.state = 1106
                self.match(CParser.Default)
                self.state = 1107
                self.match(CParser.Colon)
                self.state = 1108
                self.statement()

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class CompoundStatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def blockItemList(self):
            return self.getTypedRuleContext(CParser.BlockItemListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_compoundStatement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterCompoundStatement" ):
                listener.enterCompoundStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitCompoundStatement" ):
                listener.exitCompoundStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitCompoundStatement" ):
                return visitor.visitCompoundStatement(self)
            else:
                return visitor.visitChildren(self)




    def compoundStatement(self):

        localctx = CParser.CompoundStatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 144, self.RULE_compoundStatement)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1111
            self.match(CParser.LeftBrace)
            self.state = 1113
            _la = self._input.LA(1)
            if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.T__6) | (1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.T__9) | (1 << CParser.T__10) | (1 << CParser.T__11) | (1 << CParser.T__12) | (1 << CParser.Auto) | (1 << CParser.Break) | (1 << CParser.Case) | (1 << CParser.Char) | (1 << CParser.Const) | (1 << CParser.Continue) | (1 << CParser.Default) | (1 << CParser.Do) | (1 << CParser.Double) | (1 << CParser.Enum) | (1 << CParser.Extern) | (1 << CParser.Float) | (1 << CParser.For) | (1 << CParser.Goto) | (1 << CParser.If) | (1 << CParser.Inline) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Register) | (1 << CParser.Restrict) | (1 << CParser.Return) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Sizeof) | (1 << CParser.Static) | (1 << CParser.Struct) | (1 << CParser.Switch) | (1 << CParser.Typedef) | (1 << CParser.Union) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Volatile) | (1 << CParser.While) | (1 << CParser.Alignas) | (1 << CParser.Alignof) | (1 << CParser.Atomic) | (1 << CParser.Bool) | (1 << CParser.Complex) | (1 << CParser.Generic) | (1 << CParser.Noreturn) | (1 << CParser.StaticAssert) | (1 << CParser.ThreadLocal) | (1 << CParser.LeftParen) | (1 << CParser.LeftBrace))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Semi - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                self.state = 1112
                self.blockItemList(0)


            self.state = 1115
            self.match(CParser.RightBrace)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class BlockItemListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def blockItem(self):
            return self.getTypedRuleContext(CParser.BlockItemContext,0)


        def blockItemList(self):
            return self.getTypedRuleContext(CParser.BlockItemListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_blockItemList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterBlockItemList" ):
                listener.enterBlockItemList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitBlockItemList" ):
                listener.exitBlockItemList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitBlockItemList" ):
                return visitor.visitBlockItemList(self)
            else:
                return visitor.visitChildren(self)



    def blockItemList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.BlockItemListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 146
        self.enterRecursionRule(localctx, 146, self.RULE_blockItemList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1118
            self.blockItem()
            self._ctx.stop = self._input.LT(-1)
            self.state = 1124
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,119,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.BlockItemListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_blockItemList)
                    self.state = 1120
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 1121
                    self.blockItem()
                self.state = 1126
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,119,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class BlockItemContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declaration(self):
            return self.getTypedRuleContext(CParser.DeclarationContext,0)


        def statement(self):
            return self.getTypedRuleContext(CParser.StatementContext,0)


        def getRuleIndex(self):
            return CParser.RULE_blockItem

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterBlockItem" ):
                listener.enterBlockItem(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitBlockItem" ):
                listener.exitBlockItem(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitBlockItem" ):
                return visitor.visitBlockItem(self)
            else:
                return visitor.visitChildren(self)




    def blockItem(self):

        localctx = CParser.BlockItemContext(self, self._ctx, self.state)
        self.enterRule(localctx, 148, self.RULE_blockItem)
        try:
            self.state = 1129
            la_ = self._interp.adaptivePredict(self._input,120,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 1127
                self.declaration()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 1128
                self.statement()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class ExpressionStatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_expressionStatement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterExpressionStatement" ):
                listener.enterExpressionStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitExpressionStatement" ):
                listener.exitExpressionStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitExpressionStatement" ):
                return visitor.visitExpressionStatement(self)
            else:
                return visitor.visitChildren(self)




    def expressionStatement(self):

        localctx = CParser.ExpressionStatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 150, self.RULE_expressionStatement)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1132
            _la = self._input.LA(1)
            if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                self.state = 1131
                self.expression(0)


            self.state = 1134
            self.match(CParser.Semi)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class SelectionStatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def statement(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.StatementContext)
            else:
                return self.getTypedRuleContext(CParser.StatementContext,i)


        def getRuleIndex(self):
            return CParser.RULE_selectionStatement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterSelectionStatement" ):
                listener.enterSelectionStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitSelectionStatement" ):
                listener.exitSelectionStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitSelectionStatement" ):
                return visitor.visitSelectionStatement(self)
            else:
                return visitor.visitChildren(self)




    def selectionStatement(self):

        localctx = CParser.SelectionStatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 152, self.RULE_selectionStatement)
        try:
            self.state = 1151
            token = self._input.LA(1)
            if token in [CParser.If]:
                self.enterOuterAlt(localctx, 1)
                self.state = 1136
                self.match(CParser.If)
                self.state = 1137
                self.match(CParser.LeftParen)
                self.state = 1138
                self.expression(0)
                self.state = 1139
                self.match(CParser.RightParen)
                self.state = 1140
                self.statement()
                self.state = 1143
                la_ = self._interp.adaptivePredict(self._input,122,self._ctx)
                if la_ == 1:
                    self.state = 1141
                    self.match(CParser.Else)
                    self.state = 1142
                    self.statement()



            elif token in [CParser.Switch]:
                self.enterOuterAlt(localctx, 2)
                self.state = 1145
                self.match(CParser.Switch)
                self.state = 1146
                self.match(CParser.LeftParen)
                self.state = 1147
                self.expression(0)
                self.state = 1148
                self.match(CParser.RightParen)
                self.state = 1149
                self.statement()

            else:
                raise NoViableAltException(self)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class IterationStatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def expression(self, i:int=None):
            if i is None:
                return self.getTypedRuleContexts(CParser.ExpressionContext)
            else:
                return self.getTypedRuleContext(CParser.ExpressionContext,i)


        def statement(self):
            return self.getTypedRuleContext(CParser.StatementContext,0)


        def declaration(self):
            return self.getTypedRuleContext(CParser.DeclarationContext,0)


        def getRuleIndex(self):
            return CParser.RULE_iterationStatement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterIterationStatement" ):
                listener.enterIterationStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitIterationStatement" ):
                listener.exitIterationStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitIterationStatement" ):
                return visitor.visitIterationStatement(self)
            else:
                return visitor.visitChildren(self)




    def iterationStatement(self):

        localctx = CParser.IterationStatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 154, self.RULE_iterationStatement)
        self._la = 0 # Token type
        try:
            self.state = 1195
            la_ = self._interp.adaptivePredict(self._input,129,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 1153
                self.match(CParser.While)
                self.state = 1154
                self.match(CParser.LeftParen)
                self.state = 1155
                self.expression(0)
                self.state = 1156
                self.match(CParser.RightParen)
                self.state = 1157
                self.statement()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 1159
                self.match(CParser.Do)
                self.state = 1160
                self.statement()
                self.state = 1161
                self.match(CParser.While)
                self.state = 1162
                self.match(CParser.LeftParen)
                self.state = 1163
                self.expression(0)
                self.state = 1164
                self.match(CParser.RightParen)
                self.state = 1165
                self.match(CParser.Semi)
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 1167
                self.match(CParser.For)
                self.state = 1168
                self.match(CParser.LeftParen)
                self.state = 1170
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1169
                    self.expression(0)


                self.state = 1172
                self.match(CParser.Semi)
                self.state = 1174
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1173
                    self.expression(0)


                self.state = 1176
                self.match(CParser.Semi)
                self.state = 1178
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1177
                    self.expression(0)


                self.state = 1180
                self.match(CParser.RightParen)
                self.state = 1181
                self.statement()
                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 1182
                self.match(CParser.For)
                self.state = 1183
                self.match(CParser.LeftParen)
                self.state = 1184
                self.declaration()
                self.state = 1186
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1185
                    self.expression(0)


                self.state = 1188
                self.match(CParser.Semi)
                self.state = 1190
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1189
                    self.expression(0)


                self.state = 1192
                self.match(CParser.RightParen)
                self.state = 1193
                self.statement()
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class JumpStatementContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def Identifier(self):
            return self.getToken(CParser.Identifier, 0)

        def expression(self):
            return self.getTypedRuleContext(CParser.ExpressionContext,0)


        def unaryExpression(self):
            return self.getTypedRuleContext(CParser.UnaryExpressionContext,0)


        def getRuleIndex(self):
            return CParser.RULE_jumpStatement

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterJumpStatement" ):
                listener.enterJumpStatement(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitJumpStatement" ):
                listener.exitJumpStatement(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitJumpStatement" ):
                return visitor.visitJumpStatement(self)
            else:
                return visitor.visitChildren(self)




    def jumpStatement(self):

        localctx = CParser.JumpStatementContext(self, self._ctx, self.state)
        self.enterRule(localctx, 156, self.RULE_jumpStatement)
        self._la = 0 # Token type
        try:
            self.state = 1213
            la_ = self._interp.adaptivePredict(self._input,131,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 1197
                self.match(CParser.Goto)
                self.state = 1198
                self.match(CParser.Identifier)
                self.state = 1199
                self.match(CParser.Semi)
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 1200
                self.match(CParser.Continue)
                self.state = 1201
                self.match(CParser.Semi)
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 1202
                self.match(CParser.Break)
                self.state = 1203
                self.match(CParser.Semi)
                pass

            elif la_ == 4:
                self.enterOuterAlt(localctx, 4)
                self.state = 1204
                self.match(CParser.Return)
                self.state = 1206
                _la = self._input.LA(1)
                if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__1) | (1 << CParser.T__2) | (1 << CParser.Sizeof) | (1 << CParser.Alignof) | (1 << CParser.Generic) | (1 << CParser.LeftParen))) != 0) or ((((_la - 71)) & ~0x3f) == 0 and ((1 << (_la - 71)) & ((1 << (CParser.Plus - 71)) | (1 << (CParser.PlusPlus - 71)) | (1 << (CParser.Minus - 71)) | (1 << (CParser.MinusMinus - 71)) | (1 << (CParser.Star - 71)) | (1 << (CParser.And - 71)) | (1 << (CParser.AndAnd - 71)) | (1 << (CParser.Not - 71)) | (1 << (CParser.Tilde - 71)) | (1 << (CParser.Identifier - 71)) | (1 << (CParser.Constant - 71)) | (1 << (CParser.StringLiteral - 71)))) != 0):
                    self.state = 1205
                    self.expression(0)


                self.state = 1208
                self.match(CParser.Semi)
                pass

            elif la_ == 5:
                self.enterOuterAlt(localctx, 5)
                self.state = 1209
                self.match(CParser.Goto)
                self.state = 1210
                self.unaryExpression()
                self.state = 1211
                self.match(CParser.Semi)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class CompilationUnitContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def EOF(self):
            return self.getToken(CParser.EOF, 0)

        def translationUnit(self):
            return self.getTypedRuleContext(CParser.TranslationUnitContext,0)


        def getRuleIndex(self):
            return CParser.RULE_compilationUnit

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterCompilationUnit" ):
                listener.enterCompilationUnit(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitCompilationUnit" ):
                listener.exitCompilationUnit(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitCompilationUnit" ):
                return visitor.visitCompilationUnit(self)
            else:
                return visitor.visitChildren(self)




    def compilationUnit(self):

        localctx = CParser.CompilationUnitContext(self, self._ctx, self.state)
        self.enterRule(localctx, 158, self.RULE_compilationUnit)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1216
            _la = self._input.LA(1)
            if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.T__6) | (1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.T__9) | (1 << CParser.T__11) | (1 << CParser.Auto) | (1 << CParser.Char) | (1 << CParser.Const) | (1 << CParser.Double) | (1 << CParser.Enum) | (1 << CParser.Extern) | (1 << CParser.Float) | (1 << CParser.Inline) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Register) | (1 << CParser.Restrict) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Static) | (1 << CParser.Struct) | (1 << CParser.Typedef) | (1 << CParser.Union) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Volatile) | (1 << CParser.Alignas) | (1 << CParser.Atomic) | (1 << CParser.Bool) | (1 << CParser.Complex) | (1 << CParser.Noreturn) | (1 << CParser.StaticAssert) | (1 << CParser.ThreadLocal) | (1 << CParser.LeftParen))) != 0) or ((((_la - 75)) & ~0x3f) == 0 and ((1 << (_la - 75)) & ((1 << (CParser.Star - 75)) | (1 << (CParser.Caret - 75)) | (1 << (CParser.Semi - 75)) | (1 << (CParser.Identifier - 75)))) != 0):
                self.state = 1215
                self.translationUnit(0)


            self.state = 1218
            self.match(CParser.EOF)
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class TranslationUnitContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def externalDeclaration(self):
            return self.getTypedRuleContext(CParser.ExternalDeclarationContext,0)


        def translationUnit(self):
            return self.getTypedRuleContext(CParser.TranslationUnitContext,0)


        def getRuleIndex(self):
            return CParser.RULE_translationUnit

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterTranslationUnit" ):
                listener.enterTranslationUnit(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitTranslationUnit" ):
                listener.exitTranslationUnit(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitTranslationUnit" ):
                return visitor.visitTranslationUnit(self)
            else:
                return visitor.visitChildren(self)



    def translationUnit(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.TranslationUnitContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 160
        self.enterRecursionRule(localctx, 160, self.RULE_translationUnit, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1221
            self.externalDeclaration()
            self._ctx.stop = self._input.LT(-1)
            self.state = 1227
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,133,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.TranslationUnitContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_translationUnit)
                    self.state = 1223
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 1224
                    self.externalDeclaration()
                self.state = 1229
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,133,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx

    class ExternalDeclarationContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def functionDefinition(self):
            return self.getTypedRuleContext(CParser.FunctionDefinitionContext,0)


        def declaration(self):
            return self.getTypedRuleContext(CParser.DeclarationContext,0)


        def getRuleIndex(self):
            return CParser.RULE_externalDeclaration

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterExternalDeclaration" ):
                listener.enterExternalDeclaration(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitExternalDeclaration" ):
                listener.exitExternalDeclaration(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitExternalDeclaration" ):
                return visitor.visitExternalDeclaration(self)
            else:
                return visitor.visitChildren(self)




    def externalDeclaration(self):

        localctx = CParser.ExternalDeclarationContext(self, self._ctx, self.state)
        self.enterRule(localctx, 162, self.RULE_externalDeclaration)
        try:
            self.state = 1233
            la_ = self._interp.adaptivePredict(self._input,134,self._ctx)
            if la_ == 1:
                self.enterOuterAlt(localctx, 1)
                self.state = 1230
                self.functionDefinition()
                pass

            elif la_ == 2:
                self.enterOuterAlt(localctx, 2)
                self.state = 1231
                self.declaration()
                pass

            elif la_ == 3:
                self.enterOuterAlt(localctx, 3)
                self.state = 1232
                self.match(CParser.Semi)
                pass


        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class FunctionDefinitionContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declarator(self):
            return self.getTypedRuleContext(CParser.DeclaratorContext,0)


        def compoundStatement(self):
            return self.getTypedRuleContext(CParser.CompoundStatementContext,0)


        def declarationSpecifiers(self):
            return self.getTypedRuleContext(CParser.DeclarationSpecifiersContext,0)


        def declarationList(self):
            return self.getTypedRuleContext(CParser.DeclarationListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_functionDefinition

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterFunctionDefinition" ):
                listener.enterFunctionDefinition(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitFunctionDefinition" ):
                listener.exitFunctionDefinition(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitFunctionDefinition" ):
                return visitor.visitFunctionDefinition(self)
            else:
                return visitor.visitChildren(self)




    def functionDefinition(self):

        localctx = CParser.FunctionDefinitionContext(self, self._ctx, self.state)
        self.enterRule(localctx, 164, self.RULE_functionDefinition)
        self._la = 0 # Token type
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1236
            la_ = self._interp.adaptivePredict(self._input,135,self._ctx)
            if la_ == 1:
                self.state = 1235
                self.declarationSpecifiers()


            self.state = 1238
            self.declarator()
            self.state = 1240
            _la = self._input.LA(1)
            if (((_la) & ~0x3f) == 0 and ((1 << _la) & ((1 << CParser.T__0) | (1 << CParser.T__3) | (1 << CParser.T__4) | (1 << CParser.T__5) | (1 << CParser.T__6) | (1 << CParser.T__7) | (1 << CParser.T__8) | (1 << CParser.T__9) | (1 << CParser.T__11) | (1 << CParser.Auto) | (1 << CParser.Char) | (1 << CParser.Const) | (1 << CParser.Double) | (1 << CParser.Enum) | (1 << CParser.Extern) | (1 << CParser.Float) | (1 << CParser.Inline) | (1 << CParser.Int) | (1 << CParser.Long) | (1 << CParser.Register) | (1 << CParser.Restrict) | (1 << CParser.Short) | (1 << CParser.Signed) | (1 << CParser.Static) | (1 << CParser.Struct) | (1 << CParser.Typedef) | (1 << CParser.Union) | (1 << CParser.Unsigned) | (1 << CParser.Void) | (1 << CParser.Volatile) | (1 << CParser.Alignas) | (1 << CParser.Atomic) | (1 << CParser.Bool) | (1 << CParser.Complex) | (1 << CParser.Noreturn) | (1 << CParser.StaticAssert) | (1 << CParser.ThreadLocal))) != 0) or _la==CParser.Identifier:
                self.state = 1239
                self.declarationList(0)


            self.state = 1242
            self.compoundStatement()
        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.exitRule()
        return localctx

    class DeclarationListContext(ParserRuleContext):

        def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
            super().__init__(parent, invokingState)
            self.parser = parser

        def declaration(self):
            return self.getTypedRuleContext(CParser.DeclarationContext,0)


        def declarationList(self):
            return self.getTypedRuleContext(CParser.DeclarationListContext,0)


        def getRuleIndex(self):
            return CParser.RULE_declarationList

        def enterRule(self, listener:ParseTreeListener):
            if hasattr( listener, "enterDeclarationList" ):
                listener.enterDeclarationList(self)

        def exitRule(self, listener:ParseTreeListener):
            if hasattr( listener, "exitDeclarationList" ):
                listener.exitDeclarationList(self)

        def accept(self, visitor:ParseTreeVisitor):
            if hasattr( visitor, "visitDeclarationList" ):
                return visitor.visitDeclarationList(self)
            else:
                return visitor.visitChildren(self)



    def declarationList(self, _p:int=0):
        _parentctx = self._ctx
        _parentState = self.state
        localctx = CParser.DeclarationListContext(self, self._ctx, _parentState)
        _prevctx = localctx
        _startState = 166
        self.enterRecursionRule(localctx, 166, self.RULE_declarationList, _p)
        try:
            self.enterOuterAlt(localctx, 1)
            self.state = 1245
            self.declaration()
            self._ctx.stop = self._input.LT(-1)
            self.state = 1251
            self._errHandler.sync(self)
            _alt = self._interp.adaptivePredict(self._input,137,self._ctx)
            while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
                if _alt==1:
                    if self._parseListeners is not None:
                        self.triggerExitRuleEvent()
                    _prevctx = localctx
                    localctx = CParser.DeclarationListContext(self, _parentctx, _parentState)
                    self.pushNewRecursionContext(localctx, _startState, self.RULE_declarationList)
                    self.state = 1247
                    if not self.precpred(self._ctx, 1):
                        from antlr4.error.Errors import FailedPredicateException
                        raise FailedPredicateException(self, "self.precpred(self._ctx, 1)")
                    self.state = 1248
                    self.declaration()
                self.state = 1253
                self._errHandler.sync(self)
                _alt = self._interp.adaptivePredict(self._input,137,self._ctx)

        except RecognitionException as re:
            localctx.exception = re
            self._errHandler.reportError(self, re)
            self._errHandler.recover(self, re)
        finally:
            self.unrollRecursionContexts(_parentctx)
        return localctx



    def sempred(self, localctx:RuleContext, ruleIndex:int, predIndex:int):
        if self._predicates == None:
            self._predicates = dict()
        self._predicates[2] = self.genericAssocList_sempred
        self._predicates[4] = self.postfixExpression_sempred
        self._predicates[5] = self.argumentExpressionList_sempred
        self._predicates[9] = self.multiplicativeExpression_sempred
        self._predicates[10] = self.additiveExpression_sempred
        self._predicates[11] = self.shiftExpression_sempred
        self._predicates[12] = self.relationalExpression_sempred
        self._predicates[13] = self.equalityExpression_sempred
        self._predicates[14] = self.andExpression_sempred
        self._predicates[15] = self.exclusiveOrExpression_sempred
        self._predicates[16] = self.inclusiveOrExpression_sempred
        self._predicates[17] = self.logicalAndExpression_sempred
        self._predicates[18] = self.logicalOrExpression_sempred
        self._predicates[22] = self.expression_sempred
        self._predicates[28] = self.initDeclaratorList_sempred
        self._predicates[34] = self.structDeclarationList_sempred
        self._predicates[37] = self.structDeclaratorList_sempred
        self._predicates[40] = self.enumeratorList_sempred
        self._predicates[48] = self.directDeclarator_sempred
        self._predicates[55] = self.typeQualifierList_sempred
        self._predicates[57] = self.parameterList_sempred
        self._predicates[59] = self.identifierList_sempred
        self._predicates[62] = self.directAbstractDeclarator_sempred
        self._predicates[65] = self.initializerList_sempred
        self._predicates[67] = self.designatorList_sempred
        self._predicates[73] = self.blockItemList_sempred
        self._predicates[80] = self.translationUnit_sempred
        self._predicates[83] = self.declarationList_sempred
        pred = self._predicates.get(ruleIndex, None)
        if pred is None:
            raise Exception("No predicate with index:" + str(ruleIndex))
        else:
            return pred(localctx, predIndex)

    def genericAssocList_sempred(self, localctx:GenericAssocListContext, predIndex:int):
            if predIndex == 0:
                return self.precpred(self._ctx, 1)


    def postfixExpression_sempred(self, localctx:PostfixExpressionContext, predIndex:int):
            if predIndex == 1:
                return self.precpred(self._ctx, 10)


            if predIndex == 2:
                return self.precpred(self._ctx, 9)


            if predIndex == 3:
                return self.precpred(self._ctx, 8)


            if predIndex == 4:
                return self.precpred(self._ctx, 7)


            if predIndex == 5:
                return self.precpred(self._ctx, 6)


            if predIndex == 6:
                return self.precpred(self._ctx, 5)


    def argumentExpressionList_sempred(self, localctx:ArgumentExpressionListContext, predIndex:int):
            if predIndex == 7:
                return self.precpred(self._ctx, 1)


    def multiplicativeExpression_sempred(self, localctx:MultiplicativeExpressionContext, predIndex:int):
            if predIndex == 8:
                return self.precpred(self._ctx, 3)


            if predIndex == 9:
                return self.precpred(self._ctx, 2)


            if predIndex == 10:
                return self.precpred(self._ctx, 1)


    def additiveExpression_sempred(self, localctx:AdditiveExpressionContext, predIndex:int):
            if predIndex == 11:
                return self.precpred(self._ctx, 2)


            if predIndex == 12:
                return self.precpred(self._ctx, 1)


    def shiftExpression_sempred(self, localctx:ShiftExpressionContext, predIndex:int):
            if predIndex == 13:
                return self.precpred(self._ctx, 2)


            if predIndex == 14:
                return self.precpred(self._ctx, 1)


    def relationalExpression_sempred(self, localctx:RelationalExpressionContext, predIndex:int):
            if predIndex == 15:
                return self.precpred(self._ctx, 4)


            if predIndex == 16:
                return self.precpred(self._ctx, 3)


            if predIndex == 17:
                return self.precpred(self._ctx, 2)


            if predIndex == 18:
                return self.precpred(self._ctx, 1)


    def equalityExpression_sempred(self, localctx:EqualityExpressionContext, predIndex:int):
            if predIndex == 19:
                return self.precpred(self._ctx, 2)


            if predIndex == 20:
                return self.precpred(self._ctx, 1)


    def andExpression_sempred(self, localctx:AndExpressionContext, predIndex:int):
            if predIndex == 21:
                return self.precpred(self._ctx, 1)


    def exclusiveOrExpression_sempred(self, localctx:ExclusiveOrExpressionContext, predIndex:int):
            if predIndex == 22:
                return self.precpred(self._ctx, 1)


    def inclusiveOrExpression_sempred(self, localctx:InclusiveOrExpressionContext, predIndex:int):
            if predIndex == 23:
                return self.precpred(self._ctx, 1)


    def logicalAndExpression_sempred(self, localctx:LogicalAndExpressionContext, predIndex:int):
            if predIndex == 24:
                return self.precpred(self._ctx, 1)


    def logicalOrExpression_sempred(self, localctx:LogicalOrExpressionContext, predIndex:int):
            if predIndex == 25:
                return self.precpred(self._ctx, 1)


    def expression_sempred(self, localctx:ExpressionContext, predIndex:int):
            if predIndex == 26:
                return self.precpred(self._ctx, 1)


    def initDeclaratorList_sempred(self, localctx:InitDeclaratorListContext, predIndex:int):
            if predIndex == 27:
                return self.precpred(self._ctx, 1)


    def structDeclarationList_sempred(self, localctx:StructDeclarationListContext, predIndex:int):
            if predIndex == 28:
                return self.precpred(self._ctx, 1)


    def structDeclaratorList_sempred(self, localctx:StructDeclaratorListContext, predIndex:int):
            if predIndex == 29:
                return self.precpred(self._ctx, 1)


    def enumeratorList_sempred(self, localctx:EnumeratorListContext, predIndex:int):
            if predIndex == 30:
                return self.precpred(self._ctx, 1)


    def directDeclarator_sempred(self, localctx:DirectDeclaratorContext, predIndex:int):
            if predIndex == 31:
                return self.precpred(self._ctx, 6)


            if predIndex == 32:
                return self.precpred(self._ctx, 5)


            if predIndex == 33:
                return self.precpred(self._ctx, 4)


            if predIndex == 34:
                return self.precpred(self._ctx, 3)


            if predIndex == 35:
                return self.precpred(self._ctx, 2)


            if predIndex == 36:
                return self.precpred(self._ctx, 1)


    def typeQualifierList_sempred(self, localctx:TypeQualifierListContext, predIndex:int):
            if predIndex == 37:
                return self.precpred(self._ctx, 1)


    def parameterList_sempred(self, localctx:ParameterListContext, predIndex:int):
            if predIndex == 38:
                return self.precpred(self._ctx, 1)


    def identifierList_sempred(self, localctx:IdentifierListContext, predIndex:int):
            if predIndex == 39:
                return self.precpred(self._ctx, 1)


    def directAbstractDeclarator_sempred(self, localctx:DirectAbstractDeclaratorContext, predIndex:int):
            if predIndex == 40:
                return self.precpred(self._ctx, 5)


            if predIndex == 41:
                return self.precpred(self._ctx, 4)


            if predIndex == 42:
                return self.precpred(self._ctx, 3)


            if predIndex == 43:
                return self.precpred(self._ctx, 2)


            if predIndex == 44:
                return self.precpred(self._ctx, 1)


    def initializerList_sempred(self, localctx:InitializerListContext, predIndex:int):
            if predIndex == 45:
                return self.precpred(self._ctx, 1)


    def designatorList_sempred(self, localctx:DesignatorListContext, predIndex:int):
            if predIndex == 46:
                return self.precpred(self._ctx, 1)


    def blockItemList_sempred(self, localctx:BlockItemListContext, predIndex:int):
            if predIndex == 47:
                return self.precpred(self._ctx, 1)


    def translationUnit_sempred(self, localctx:TranslationUnitContext, predIndex:int):
            if predIndex == 48:
                return self.precpred(self._ctx, 1)


    def declarationList_sempred(self, localctx:DeclarationListContext, predIndex:int):
            if predIndex == 49:
                return self.precpred(self._ctx, 1)

